(General information, rules, regulations and transitional arrangements)

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3 The complete Calendar consists of: PART 1 PART 2 PART 3 PART 4 PART 5 PART 6 PART 7 PART 8 General Information and Rules (All degrees, diplomas and certificates) Subjects and syllabuses Rules: College of Agriculture and Environmental Sciences Rules: College of Economic and Management Sciences Rules: College of Human Sciences Rules: College of Law Rules: College of Science, Engineering and Technology VUDEC/UNISA (General information, rules, regulations and transitional arrangements) NOTICE The Calendar is valid for 2008 only. Rules and syllabuses may be changed for The Calendar is obtainable from: The Registrar PO Box 392 Unisa 0003 Hierdie Jaarboek is ook in Afrikaans beskikbaar. ISBN (Set of Calendars) ISBN (Calendar 7) ISSN Printed and published by the University of South Africa Courses delivered on the Internet will initially only be in English. Although covering the same core content as the print-based study material, the characteristics of the Internet will facilitate different forms of enrichment. Towards the African university in the service of humanity Vision Mission The University of South Africa is a comprehensive, open learning and distance education institution, which, in response to the diverse needs of society: provides quality general academic and career-focused learning opportunities underpinned by principles of lifelong learning, flexibility, and student-centredness; undertakes research and knowledge development guided by integrity, quality and rigour; participates in community development by utilizing its resources and capacities for the upli ment of the disadvantaged; is accessible to all learners, specifically those on the African continent, and the marginalised, by way of a barrier-free environment, while responding to the needs of the global market; addresses the needs of a diverse learner profile by offering relevant learner support, facilitated by appropriate information and communications technology; develops and retains high quality capacities among its staff members to achieve human development, by using the resources at its disposal efficiently and effectively; cultivates and promotes an institutional ethos, intellectual culture and educational experience that is conducive to critical discourse, intellectual curiosity, tolerance, and a diversity of views; contributes to good and responsible society by graduating individuals of sound character and versatile ability; and meets the needs of the global competitive society by nurturing collaborative relationships with its stakeholders and other partners. Values The University of South Africa espouses the values in the Constitution of the Republic of South Africa: human dignity, the achievement of equality, and social justice. We also affirm the historic principles of academic freedom. We seek to weave these into the fabric of our institutional life and culture. Elaborated, these values and principles consist of the following elements: INTEGRITY Subscribing to truth, honesty, transparency and accountability of conduct in all that we do SOCIAL JUSTICE AND FAIRNESS Promoting equity of access and opportunity so that all may develop their full potential EXCELLENCE Upholding high standards of aspiration in all our practices, with continuous a ention to improvement in quality

4 C o n t e n t s SECTION 1: ADVICE AND INFORMATION A1 Introduction...5 G13 Admission to studies...5 A2 Recognition of prior learning (RPL)...5 SECTION 2: RULES FOR FORMATIVE AND PROFESSIONAL UNDERGRADUATE QUALIFICATIONS Chapter 1 Telephone numbers Administration Contact numbers for Departments...6 Chapter 2 Degrees and Certificates Degrees Certificate/Diploma...6 Chapter 3 Rules for the Degree of Bachelor of Science... 6 Sc1 Admission...7 Sc2 Definitions...8 Sc3 Duration of study and number of study units per year...8 Sc4 Subjects...8 Sc5 Composition and completion of the curriculum...9 Sc6 Pass-mark and subminima; retention of credit...9 Sc7 Pass with distinction...9 Sc8 Major subjects see also Sc5(1)(b)...10 Chapter 4 Advice and information on registration for the BSc Degree Procedure for compiling a BSc curriculum How many modules can you cope with each year? Compulsory handbooks Registration and fees Applications for exemption from study units Registration for a second BSc Degree or the equivalent Electronic pocket calculators for examination purposes The Science Library Duration of examination papers/modules...11 Chapter 5 BSc Specialisation Degrees BSc (with specialisation in Environmental Management) Chemistry stream (02089 ENC)...12 BSc (with specialisation in Mathematical and Statistical Science). 13 Mathematics stream (02089 MMA)...13 Applied Mathematics stream (02089 MAM)...14 Financial modelling stream (02089 MFI)...14 Mathematical modelling stream (02089 MMM)...15 Mathematical Statistics stream (02089 MMS)...15 Statistical Decision Science stream (02089 MSD)...16 Statistics for Management stream (02089 MSM)...16 Environmental Statistics stream (02089 MES)...17 BSc (with specialisation in Information Technology and Computer Science) So ware Engineering stream (02089 ISE)...17 Computational Intelligence stream (02089 ICI)...18 Scientific Computing stream (02089 ISC)...18 Information Technology Management stream (02089 ITM)..19 Computational Statistics (Programming) stream (02089 ICP) Computational Statistics (Information Systems) stream (02089 ICS)...20 Informatics and Decision Modelling stream (02089 IDM)...20 Information Systems and Geography stream (02089 ISG)...21 Decision Modelling and Computing stream (02089 IDC)...22 BSc (with specialisation in Natural Sciences) Astronomy stream (02089 NAS)...22 Biochemistry and Chemistry stream (02089 NOC)...23 Botany and Chemistry stream (02089 C)...23 Chemistry and Mathematics stream (02089 NCM)...24 Chemistry and Microbiology stream (02089 NCK)...24 Chemistry and Physics stream (02089 NCF)...25 Chemistry and Physiology stream (02089 NCP)...25 Chemistry and Zoology stream (02089 NCZ)...26 Physics stream (02089 NFI)...26 Physics and Computer Science stream (02089 NFC)...27 Chapter 6 The National Certificate in Datametrics For whom? Rules for the National Certificate in Datametrics...28 Sc10 Admission...28 Sc11 Duration of study and number of study units per year...29 Sc12 Subjects...29 Sc13 Composition and completion of the curriculum...29 Sc14 Exemption...29 Sc15 Pass with distinction Core modules for the National Certificate in Datametrics Model Curricula for the National Certificate in Datametrics Recognition for Degree studies...32 Chapter 7 Practical work and practical examinations General information Exemption from practical examinations/modules at other universities or institutions...33 SECTION 3: RULES FOR FORMATIVE AND PROFESSIONAL POSTGRADUATE QUALIFICATIONS Chapter 1 Rules for the Degree of Honours Bachelor of Administration PSc28 Admission...35 PSc29 Subjects...35 PSc30 Pass with distinction...35 PSc31 Curriculum and other requirements...35 Chapter 2 Rules for the Degree of Honours Bachelor of Arts PSc44 Curriculum and other requirements...35 Statistics Chapter 3 Rules for the Degree Honours Bachelor of Commerce PSc32 Admission...36 PSc33 Pass with distinction...36 PSc34 Curriculum and other requirements...36 Business Informatics Statistics Chapter 4 Rules for the Degree of Honours Bachelor of Science PSc3 Admission...37 PSc4 Definitions...37 PSc5 Subjects...37 PSc6 Curriculum and examination...37 PSc7 Pass, retaining of credit and pass with distinction...37 PSc8 List of modules and papers...37 Applied Mathematics Astronomy Chemistry Computer Science Data mining Information Systems Mathematics Operations Research Physics Statistics Chapter 5 Rules for the Degree of Master of Administration PSc35 Admission...40 PSc36 Subjects...40 PSc37 Curriculum...40 Statistics Chapter 6 Rules for the Degree of Master of Arts PSc44 Admission requirements

5 PSc45 Subjects...41 PSc46 Curriculum and other requirements...41 Statistics Chapter 7 Rules for the Degree Master in Commerce PSc38 Admission...41 PSc39 Curriculum...41 Statistics Chapter 8 Rules for the Degree of Master of Science PSc9 Admission...41 PSc10 Subjects...41 PSc11 Composition and completion of curriculum...41 PSc12 Scientific article...42 PSc13 Pass, retaining of credit and pass with distinction...42 PSc14 Curriculum requirements...42 Applied Mathematics Astronomy Chemical Education Chemistry Computer Science Information Systems Mathematics Mathematics Education Operations Research Physics Statistics Chapter 9 Rules for the Degree of Master of Science in Mathematics, Science and Technology Education PSc15 Admission...44 PSc16 Subjects...44 PSc17 Curriculum...44 Chapter 10 Rules for the Degree of Doctor of Administration PSc40 Subjects...44 PSc41 Curriculum...44 Chapter 11 Rules for the Degree of Doctor of Commerce PSc42 Subjects...44 PSc43 Curriculum...44 Chapter 12 Rules for the Degree of Doctor of Philosophy PSc20 Admission...44 PSc21 Subjects...44 PSc22 Curriculum...45 Chemistry Mathematics Education PSc23 Scientific article...45 Chapter 13 Rules for the Degree of Doctor of Philosophy in Mathematics, Science and Technology Education PSc24 Admission...45 PSc25 Subjects...45 PSc26 Curriculum...45 PSc27 Other requirements National Instructional Programmes: Engineering National Diploma: Engineering: Chemical Baccalaureus Technologiae: Engineering: Chemical Baccalaureus Technologiae: Engineering: Chemical (Environmental) Magister Technologiae: Engineering: Chemical National Diploma: Pulp And Paper Technology National Diploma: Engineering: Civil Baccalaureus Technologiae: Engineering: Civil Magister Technologiae: Engineering: Civil National Diploma: Engineering: Electrical Computer Systems Electronics and Electronic Communication Power Engineering Process Instrumentation Mechatronics Clinical Engineering Baccalaureus Technologiae: Engineering: Electrical Computer Systems Power Engineering Process Instrumentation Telecommunication Clinical Engineering Magister Technologiae: Engineering: Electrical National Diploma: Engineering: Industrial Baccalaureus Technologiae: Engineering: Industrial National Diploma: Engineering: Mechanical Baccalaureus Technologiae: Engineering: Mechanical National Certificate Programmes National Certificate: Water Care Government Certificate Of Competency Government Certificate Of Competency: Electrical Engineering Government Certificate Of Competency: Mechanical Engineering Government Certificate Of Competency: Multi-discipline Registration with the Engineering Council of South Africa (ECSA) Non-formal Programmes SECTION 4: RULES FOR VOCATIONALLY ORIENTED QUALIFICATIONS Chapter 1 School of Computing National Diploma: Information Technology BTech: Information Technology MTech: Information Technology Chapter 2 School of Engineering National Instructional Programmes: Mining and Mining-related National Diploma: Mine Surveying National Diploma: Surface Mining National Diploma: Mining Engineering

6 SECTION 1: ADVICE AND INFORMATION Although Unisa is a member of the CAO, prospective students applying only to Unisa do not have to apply to the CAO but must contact UNISA directly. Applications for Undergraduate studies at the following KwaZulu- Natal Institutions will be processed by the Central Applications Office (CAO) University of KwaZulu Natal University of Zululand Durban University of Technology Mangosuthu Technikon and run your own successful business, you will be experienced in budgeting, stocktaking and preparing proposals for clients. If you have done research and wri en research reports, you could request credits in the field of research. RPL may make it possible for you to earn credits towards a Unisa qualification, thereby shortening your study time and decreasing your study fees. Applications or enquiries can be directed to: Mr I Hlongwane at or [email protected] Further information can be obtained from the CAO. CAO Private Bag X06 DALBRIDGE 4014 Telephone Fax Web site h p:// A1 Introduction This section of the Calendar contains the rules for the various degrees, diplomas and certificates offered by Unisa. If, a er having carefully read this part of the Calendar you still have problems in deciding on a course of studies or doubts as to the interpretation of the rules, you are most welcome to write to the Registrar. You may also discuss the ma er in person with the staff of the Department of Student Admissions and Registrations (Tel ) or staff a ached to one of the registration facilities. When reading the composition of the various curricula, you must take into account the modularised semesterised tuition model. See Part 2 of the Calendar to check whether and in which semester a specific module for which you wish to register is being offered. Unless otherwise specified, the admission requirement for studies at Unisa is a certificate of exemption from the matriculation examination. See G13 in Part 1 of the Calendar. Part 1 of the Calendar contains the General Rules applicable to registered students and is issued to them together with their registration material. G13 Admission to studies Refer to G13 in Part 1 (General information and rules) of the Calendar for rules regarding the admission to studies. A2 Recognition of prior learning (RPL) Recognition of prior learning (RPL) is the recognition by Unisa of prior learning which has occurred in the life of the candidate. The RPL programme at Unisa enables you to gain recognition and credit for what you already know and can do. You receive credit for what you have learned from your experience rather than from the experience itself. For example, if you have worked as a police official for ten years, you will have learned a vast number of skills, such as how to effect an arrest, how to write a statement, how to negotiate. If you have started up 5

7 SECTION 2: RULES FOR FORMATIVE AND PROFESSIONAL UNDERGRADUATE QUALIFICATIONS The College of Science, Engineering and Technology has only ONE registration period per year. C h a p t e r 1 Telephone numbers 1 Administration Enquiries in connection with registration, cancellation, curricula and change of modules for qualifications offered in this College: UNISA CONTACT CENTRE Tel: (nationally) (internationally) Fax: [email protected] No other address should be used for correspondence regarding administrative ma ers sent to the Department of Student Admissions and Registrations. 2 Contact numbers for Departments Chemistry Civil and Chemical Engineering /3132 Computing Electrical and Mining Engineering Mathematical Sciences Mathematics, Science and Technology Education Mechanical and Industrial Engineering Physics Statistics C h a p t e r 2 Degrees and Certificates 1 Degrees The following degrees may be awarded in the College: Bachelor of Science... BSc Bachelor of Technology...BTech Honours Bachelor of Administration...Hons BAdmin Honours Bachelor of Arts...Hons BA Honours Bachelor of Commerce...Hons BCom Honours Bachelor of Science...Hons BSc Master of Technology... MTech Master of Administration... MAdmin Master of Arts...MA 6 Master of Commerce... MCom Master of Science...MSc Doctor of Administration...DAdmin Doctor of Commerce...DCom Doctor of Philosophy...PhD 2 Certificate/Diploma The following diploma/certificate may be issued in the College: National Certificate in Datametrics (the current curriculum is phasing out over 5 years from 2009) National Diploma C h a p t e r 3 Rules for the Degree of Bachelor of Science (Degree code: 02089) These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. Complete list of modules/courses for the BSc Degree BEFORE YOU COMPLETE THE REGISTRATION FORM for submission together with the prescribed fees and documents (see Part 1 of the Calendar and the Information Brochure), PLEASE ENSURE THAT YOU: have fulfilled all the ADMISSION REQUIREMENTS for the BSc degree (see Sc1) or, where applicable, the National Certificate in Datametrics (see Sc10); comply with all the PREREQUISITES and CO-REQUISITES as set out in the respective chapter in Part 2 of the Calendar for each of the modules (or courses) for which you wish to be registered (see Sc2 for definitions): Subject (and subject code) Applied Mathematics (APM) Archaeology (ACE) Astronomy (AST) Biochemistry (BCH) Biology (BLG) Botany (BOT) Chemistry (CHE) Comprehension Skills for Science (CSS) Computer Science (COS) Geography (GGH) Subject (and subject code) Geology (GEL) Mathematics (MAT) Information Systems (INF) Microbiology (MIB) Operations Research (OPS) Physics (PHY) Physiology (FIS) Psychology (PSY) Statistics (STA) Zoology (ZOL) will be able to comply with all the PRACTICAL WORK REQUIREMENTS for those modules that have a practical component; do not register for too many modules SEE RULE Sc3 and 3.2; understand the rules regarding the composition of your curriculum. For the BSc curriculum see Sc5 and 4.1. For the National Certificate in Datametrics see Sc13 and the examples under 6.4. Further advice and information on particular subjects will be found in the relevant chapter together with the closing dates for assignments and dates for practical work and practical examinations. THE RULES ARE STRICTLY APPLIED AND FAILURE TO COMPLY WITH THEM WILL CAUSE UNNECESSARY DELAYS AND MAY RESULT IN THE PARTIAL OR TOTAL CANCELLATION OF YOUR APPLICATION FOR REGISTRATION.

8 Sc1 Admission (1) To be registered as a candidate for the BSc degree, a student must: (a) hold one of the following certificates (see IMPORTANT below and Sc1(1) 1): (i) a matriculation certificate issued by the Joint Matriculation Board; (ii) a senior or school leaving certificate with a matriculation exemption endorsement signed by the Secretary of the Joint Matriculation Board; (iii) a senior certificate with a matriculation or university admission endorsement issued by the South African Certification Council; (iv) a certificate of full or conditional exemption from the matriculation examination issued by the Joint Matriculation Board; (v) an exemption certificate or conditional exemption certificate issued by the Matriculation Board of the Commi ee of University Principals. (b) (c) A degree shall not be awarded to a student who holds a conditional exemption certificate until all the conditions have been met and an exemption certificate can be produced. AND have satisfied the following prerequisite in respect of Mathematics: (i) obtained at least 40% (E symbol) in Mathematics HIGHER GRADE at matriculation level or (ii) obtained at least 50% (D symbol) in Mathematics STANDARD GRADE at matriculation level or (iii) passed Mathematics at matriculation level prior to the differentiation or (iv) passed an equivalent ** examination in Mathematics; or (v) passed the Mathematics access module MAT011K see Sc1(1)(c) below and the subject chapter on Mathematics in Part 2 of the Calendar. Students who have matriculation exemption as specified in Sc1(1)(a) but who do not satisfy the minimum requirements for mathematics as stated in Sc1(1)(b) and have studied Mathematics at matriculation level: (i) may register for the Mathematics access module (MAT011K) and a maximum of four of the undermentioned modules for non-degree purposes (NDP). Re-enrolment for the MAT011K module cannot exceed 2 years. As soon as MAT011 has been passed, the student may register for the BSc degree (in accordance with Sc3(2) and (3)), and any of the undermentioned modules passed (excluding MAT011), will be recognised as credits towards the degree. Credit will be granted for FIVE first level modules in Mathematics for a BSc degree. AST131F General introduction to astronomy (Astronomy131) BLG111H Basic Biology (Biology 111) BLG112J Biology of plants (Biology 112) BLG113K Biology of animals (Biology 113) BLG114L Practical (Biology 114) CHE111Q Introductory chemistry A (Chemistry 111) (d) CHE112R Introductory chemistry B (Chemistry 112) COS111U Introduction to programming 1 (Computer Science 111) CSS101H Comprehension skills for science (Comprehension Skills for Science 101) GGH101Q Know your world: introduction to geography (Geography 101) GGH102R World issues: a geographical perspective (Geography 102) CEM101A End-user Computing (Information systems 101) INF1059 Introduction to Business Information Systems (Information Systems 105) PHY1015 Elementary mechanics (Physics 101) PHY1026 Elementary electromagnetism and heat (Physics 102) PYC101Y Basic psychology (Psychology 101) PYC1023 Psychology in society (Psychology 102) STS1113 Descriptive statistics and probability (Statistics 111) STS1124 Data analysis and inference (Statistics 112) STS1055 Basic statistics (Statistics 105) (ii) Students will be granted credit for not more than six modules towards the BSc degree for modules or courses passed BEFORE the Mathematics admission requirements to the College have been met. Students who do not have matriculation exemption as stated in Sc1(1)(a) but who hold a senior or school leaving certificate: There are two possibilities: (i) (ii) Students who obtained less than 40% (E symbol) in Mathematics HIGHER GRADE or less than 50% (D symbol) in Mathematics STANDARD GRADE at matriculation level. Such students must register for CSS011 (English for Science Access) and MAT011 (Access to Mathematics), and may register for a maximum of two modules from the list given in Sc1(1)(c) for non-degree purposes. When both CSS011 and MAT011 have been passed the student may apply for a Senate discretionary conditional exemption certificate, and any of the modules from the list in Sc1(1)(c) that have been passed can be recognised as credits towards a BSc degree. Students who obtained at least 40% (E symbol) in Mathematics HIGHER GRADE or at least 50% (D symbol) in Mathematics STANDARD GRADE at matriculation level. Such students must register for CSS011 (English for Science Access), and may register for a maximum of two first-level modules in the subjects given at the beginning of Chapter 2, except for those modules where the student does not satisfy the stated mathematics or other prerequisites, or does not satisfy the stated co-requisites. When CSS011 and the two first-level modules has been passed the student may apply for a Senate discretionary conditional exemption certificate, and any firstlevel modules mentioned in the previous sentence that have been passed can be recognised as credits towards a BSc degree. ** A student who has NOT passed Mathematics at matriculation level at the required level, and has not passed either Mathematics on at least O -level for the General Certificate of Education (GCE) or at least NTC III or N3 Mathematics, but has a similar qualification in Mathematics, must FIRST write to the Registrar or discuss the ma er in person with the staff of the Department of Student Admissions and Registrations (Tel ) to determine whether it will be acceptable. If you hold a senior or school leaving certificate without a matriculation exemption, matriculation or university admission endorsement, you should contact the University in connection with conditional exemption (eg on grounds of age (+23)) see Sc1(1) 1. If you first obtained a senior or school leaving certificate without a matriculation exemption, matriculation or university admission 7

9 endorsement, and then began studies for an approved THREE- or FOUR-YEAR DIPLOMA (eg at a Teachers College, a Technikon, a University or a Nursing College that was affiliated to a South African university), you can normally apply to the University for a certificate of exemption on completion of the diploma. A certified copy of the relevant document under Sc1(1)(a) AND evidence that you have satisfied the Mathematics requirement in Sc1(1)(b)(i) (iv) or Sc1(1)(c), must accompany your FIRST application for registration. See G13 in Section 1 in connection with applications for a certificate of exemption, conditional exemption and exemption by virtue of qualifications obtained in other countries. (2) Application for registration for a second BSc degree A student who has completed a BSc or another degree in Science or Engineering may not register for a second BSc degree without permission of the Senate. Applications must be submi ed on the prescribed form which appears at the end of Section 6. The application must be accompanied by a statement of all the courses already passed, unless he/she completed his/her previous qualification(s) at Unisa. The sixteen modules on second and third level prescribed in accordance with Rule Sc5(1)(a) must be passed at this University towards the second BSc degree. Exemption from these modules cannot be granted. A student may not choose as a major subject for the second BSc degree a subject which was passed as a major subject for the first BSc degree. (3) Application for registration for a BSc degree a er a completed Bachelors degree Students who have completed a Bachelors degree (not necessarily in Science) must pass the sixteen modules on second and third level prescribed in accordance with Rule Sc5(1)(a) at this university. Exemption from these modules may not be granted. If a student is exempted from one or more modules (or a course) on third-year level on the grounds of courses passed at this or another university towards a completed degree, such modules/ courses will NOT be counted as part of a major subject towards the BSc degree, except in the case of third-level modules that were previously passed at this university for the National Certificate in Datametrics or for non-degree purposes (NDP) in accordance with the provisions of Sc13(1)(d). See also Sc7(3). The sixteen modules on second and third level prescribed by Rule Sc5(1)(a) must be passed at this University. Sc2 Definitions (1) Study units in all subjects are known as MODULES. (2) A student receives credit for each study unit passed see Sc6. (3) If Module A is a PREREQUISITE for Module B, a student must pass Module A before he/she enrols for Module B. (4) If Module A is a CO-REQUISITE for Module B and a student wishes to enrol for Module B but has not yet passed Module A, he/she must register for Modules A and B simultaneously. A student may NOT cancel his/her enrolment for a co-requisite unless the module(s) for which it is prescribed is(are) also cancelled. (5) Modules, courses and the papers of second- and third-year courses are designated by codes consisting of seven characters. The first three indicate the subject, the fourth the level of the study unit and the next two the number of the unit. The seventh character is for purposes of control. EXAMPLES CHE101N is module number 1 (or 101) on level 1 in the subject Chemistry CHE213V is module number 3 (or 213) on level 2 in the subject Chemistry MAT301S is module number 1 (or 301) on level 3 in the subject Mathematics The FULL (eg MAT101L or MAT102M) for each study unit must be used by students in all cases. The full codes will be found in the respective subject chapter in Part 2 of the Calendar. (6) The examination in each module with a theoretical component consists of one paper of two hours (or, in specified cases, three hours). Sc3 Duration of study and number of study units per year (1) The BSc degree cannot be completed in under THREE YEARS. It must be obtained within ten years of a student s first registration for the degree. (2) ON FIRST REGISTRATION and on RE-ENROLMENT at this University the number of study units for which a student may register is determined by Number of study units per year in Section D3 in Part 1 of the Calendar. (i) (ii) A student who is restricted to registration for FOUR modules may register for ONE of the following as an additional module: CSS101H (Comprehension Skills for Science) MAT110M (Precalculus Mathematics A) MAT111N (Precalculus Mathematics B) All three modules may be taken as additional modules only by students who register for a maximum of two other modules. One course is regarded as the equivalent of four modules for the purpose of this rule, and two courses as the equivalent of eight modules. (3) A student may register for a maximum of TWELVE modules a year. The maximum includes any modules that are taken for non-degree purposes (NDP) in accordance with Sc5(1)(e). Sc4 Subjects The subjects in which modules/courses may be selected for the BSc degree are listed below. The syllabuses, prerequisites and all relevant information relating to the subject will be found in the subject chapter in Part 2 of the Calendar The le er M before the name of a subject indicates that it may be selected as a major subject. OFFERED BY THE COLLEGE OF SCIENCE, ENGINEERING AND TECHNOLOGY M Applied Mathematics (APM) M Astronomy (AST) M Chemistry (CHE) M Computer Science (COS) M Experimental Physics, Theoretical Physics (PHY) M Informations Systems (INF) M Mathematics (MAT) M Operations Research (OPS) M Statistics (STA) OFFERED BY THE COLLEGE OF AGRICULTURE AND ENVIRONMENTAL SCIENCES M Biochemistry (BCH) Biology (BLG) M Botany (BOT) M Geography (GGH) Geology (GEL) M Microbiology (MIB) M Physiology (FIS) M Zoology (ZOL) 8

10 OFFERED BY OTHER COLLEGES M Archaeology (ACE) Comprehension Skills for Science (CSS) M Psychology (PSY) Sc5 Composition and completion of the curriculum 1 Students registering for semester modules MUST refer to the Information Brochure in connection with semester registrations. For general information and examples of curricula for students who are interested in particular subjects you should refer to the relevant chapter see also 4.1. (1) The curriculum for the BSc degree comprises THIRTY MODULES (except where indicated otherwise under the specialisation streams), must be composed as follows: (a) At least TWENTY-FOUR of the thirty modules must be in subjects from the list under Sc4. Note that: not more than FOURTEEN of the thirty modules may be on first level. This includes any courses that are selected under Sc5(1)(c). Additional modules on first level may be taken for non-degree purposes (NDP), subject to Sc5(1)(e); at least SIXTEEN of these twenty-four modules must be on second and third level and of these at least EIGHT must be on third level. If Physics III, Psychology III or Chemistry III were included in the curriculum, at least four further modules on third level must be selected. If any two of Physics III, Psychology III and Chemistry III were included, the two courses are regarded as the equivalent of ten modules on third level. See Sc5(1)(b); for the purpose of this rule, Courses I, II and III in Physics, Chemistry and Psychology are each regarded as the equivalent of two, three and five modules respectively. 2 If a student is exempted from one or more modules (or a course) on third-year level, such modules/course will NOT be counted among the four modules (or one course) required on third level (or higher) in accordance with Sc5(1)(b), except in the case of third-level modules that were previously passed for the National Certificate in Datametrics and for non-degree purposes (NDP) in accordance with the provisions of Sc13(1)(d). See also Sc7(3). No student may be exempted from more than fi een modules (or the equivalent in courses and modules), except in accordance with the provisions of General Rule G17 (4) in Part 1 of the Calendar. Courses or modules passed by a graduate for non-degree purposes (NDP) in accordance with the exception under General Rule G19 in Part 1 of the Calendar, may, subject to the approval of College and Senate, be credited towards the BSc degree or the National Certificate in Datametrics at a later date provided that the duration of study for such degree or diploma is not less than the prescribed minimum period required to complete the relevant qualification. (b) (c) The curriculum must include at least ONE MAJOR SUBJECT. For this purpose, each major consists of at least four modules (or one course) on third level as specified for each major subject. A particular module cannot be counted as a credit for more than one major subject. Not more than THREE courses on first-year level (the equivalent of six modules) may be in subjects from the curricula of first Bachelor s degrees of other Colleges. Such courses must be selected and taken subject to the examination timetable and the rules of the College concerned. (d) (e) Such courses on first-year level are each regarded as the equivalent of two modules on first-year level. Not more than FIFTEEN modules may be selected in any particular subject for degree purposes, unless both Experimental Physics or Theoretical Physics are taken as major subjects. Subject to the provisions of (e) below, additional modules may be taken for non-degree purposes (NDP). In addition to the THIRTY modules that may be selected for the BSc degree curriculum in accordance with Sc5(1)(a) (d), a student may register for a maximum of EIGHT modules (or a maximum of two courses, or a maximum of four modules and one course) for nondegree purposes (NDP) concurrently with those for the BSc degree subject to Sc3(4). (A er the student has satisfied the requirements for the BSc degree, a final decision can be made (if necessary) in consultation with the Department of Student Admissions and Registrations as to which modules will be recognized for degree and for non-degree purposes.) (2) Modules and/or courses for each year must be selected in such a manner that the examination dates DO NOT CLASH. The theoretical examinations in modules and courses on Levels 1, 2 and 3 are conducted in October/November. Examinations in semester modules are conducted in May/June and October/November. (3) Credit is NOT granted for a particular module as well as its equivalent(s). See under General Information under the relevant subject. Sc6 Pass-mark and subminima; retention of credit (1) To pass a module, a candidate must obtain at least 50% in the examination but, in the case of the modules listed below, both a pass-mark of at least 50% and the subminimum opposite the module concerned must be obtained. In the case of modules with both a practical and a theoretical component, credit for one component (practical or theoretical) can be retained for a maximum of two successive calendar years a er the year in which it was passed, on condition that the student passes the other component within that period. The student must re-enrol for the module concerned in the year(s) in which the uncompleted component is repeated. There is, at present, no time limit on the retention of credit for modules in which a student has passed as a whole, but conditions may be a ached to the granting of exemptions. Module Subminimum MIB % in the theory and 50% in the practical ZOL % in the theory and 50% in the project (2) See General Rules G22 and G23 in Part 1 of the Calendar for the requirements to pass individual papers and Courses I, II and III in Archaeology, Geography and Psychology. Sc7 Pass with distinction (1) A candidate shall pass a major subject with distinction if he/ she obtains an average of at least 75% in the prescribed thirdlevel modules. To pass with distinction in the final course of Archaeology, Psychology and Geography a candidate shall obtain an average of at least 75% in all the papers combined. (2) A candidate shall be awarded the degree with distinction if he/she obtains, on third level, an average of 75% for his best eight modules, or nine modules if Archaeology, Geography or Psychology is selected as a major or ten modules if two of Archaeology, Geography and Psychology are selected as major subjects at Unisa. For this purpose Archaeology III, Geography III (Option B) and Psychology III (any option) are each (prior to 2002) regarded as the equivalent of five third-level modules. 9

11 (3) Only third level modules passed for a completed Diploma/ National Certificate in Datametrics and for non-degree purposes (NDP) in accordance with Sc13(1)(d) can later be counted among the four modules (or one course) on third level required for the BSc degree in accordance with Sc5(1)(b) and can be considered for the purpose of distinctions. Other third-level modules from which a student has been exempted will not be considered for the purpose of distinctions. Sc8 Major subjects see also Sc5(1)(b) Major subjects for the BSc degree must be selected from the list under Sc4. The modules (or the course) a student must pass to obtain credit for a particular major subject are listed in the relevant chapter. A subject in which a student has passed as a major or principal subject for a completed degree may not be selected as a major for this degree. A particular module cannot be recognized as part of more than one major subject (eg COS311 can be recognized as part of a major in either Computer Science or Information Systems but NOT for both subjects). C h a p t e r 4 Advice and information on registration for the BSc Degree 4.1 Procedure for compiling a BSc curriculum NOTE that each subject is discussed under a separate chapter in Part 2 of the Calendar. A form to assist you in compiling your curriculum appears at the end of Section 6. If you are interested in a particular subject (or subjects), first read the relevant chapter before deciding on the modules to be taken in your first year. A student who wishes to register for the BSc degree may, where applicable, consider registering first for the National Certificate in Datametrics. All credits obtained for the certificate will normally be recognized as credits for the BSc degree at a later date. Particulars of the National Certificate (including model curricula) will be found in Chapter 4. BEFORE you complete the registration form, you are strongly advised to follow the important general information under the relevant subject. See also Rule Sc3 for possible restrictions. The dates for practical work and practical examinations also appear under the relevant chapter. It is quite simple to compile a BSc curriculum if you begin as follows: Divide a sheet of paper horizontally into three parts to represent the three levels, with four or more columns one for each of the subjects which you include in your curriculum. See the examples under You must select at least EIGHT modules (or one course and four modules or two courses) on third level (or higher) in such a manner that at least one major is included see Sc5(1) and Sc8. Fill in the codes for these modules in the appropriate columns and blocks on your diagram Consult the relevant subject chapter to determine which modules are prescribed as the prerequisites and co-requisites for each of the third-level modules you have already selected. Fill in the codes for the new modules in the appropriate columns and blocks Repeat this procedure in respect of the prerequisites and corequisites for those modules and/or recommended modules which you added under above. EXAMPLE 1 If you have selected Chemistry and Mathematics as your major subjects (see the respective subject chapters), your curriculum will already contain the following 23 modules: Level 3 CHE311/321, 312/322, 313/323, 314/324 Level 2 CHE211/221, 212/222, 213/223, 214/224 Level 1 CHE101, 102, 103, MAT modules MAT211, MAT213 At least 2 other secondlevel MATmodules MAT112, 113, 111, 103 CSS101 Total This curriculum will be in order if seven more modules are added (eight if exemption (without credit) from CSS101 is granted). These modules may be in Mathematics and/or Applied Mathematics, or in one or more other subjects. See and below. EXAMPLE 2 If you have selected Computer Science and Geography as major subjects then your curriculum will already contain the following 31 modules: Level 3 COS301, 311, 321, 332 Level 2 COS201, 211, 214, 221, 233 Level 1 COS101, 111, 112, 113 GGH301, 302, 303, 304, 305 GGH201, 202, 203, 204 GGH101, 102 MAT111, 112, 103 Total This curriculum will be in order if another three modules (preferably on first level) are taken If you have not yet selected at least SIXTEEN modules on second and third level, you must now select the necessary number of modules at this level, bearing in mind that the new prerequisites and co-requisites and recommended modules must also be added. You may select modules in subjects other than those already chosen Repeat the procedure described in until you have a total of THIRTY modules in your curriculum. 4.2 How many modules can you cope with each year? No student may register for more than twelve modules a year for the BSc degree. See Sc11 in connection with the National Certificate in Datametrics. This, however, does not answer the question posed. We answer it in the light of the following findings: 10

12 The results of a survey indicate that the average Unisa science student has about 14 hours per week available for study. Compare this with the average student at a residential university who has about 40 hours available. Since he/she can usually manage only four first-year courses this implies that the average Unisa student can only manage the equivalent of a li le more than one first-year course per year. It is thus recommended that you restrict the number of modules you take each year to comply with your own personal circumstances. 1 You must complete the degree within 10 academic years in the study units available during your period of study. A simple table that you can use to determine for how many modules you should register for has been derived from the results of the survey mentioned above: Hours available for study per week Number of modules the student can manage Hours available for study per week Number of modules the student can manage Less than More than To use this table you must first make a realistic estimate of the average number of hours you will have available each week for study from 1 February to 15 October. You should then determine the number of modules for which you should register from the table. Suppose we consider our average student as an example. He/she has 14 hours available per week (say 2 hours per evening Monday to Friday and 4 hours over the weekend) and for him/her the table gives: Recommended number of modules per year = 5 That is, you should be able to manage five modules per year. At this rate it will take six years to complete 30 modules for the BSc degree if no modules are repeated. You may feel that you can manage much more, but remember you will find it much more stimulating if you pass all your modules each year than if you register for too many and pass only a few. 2 Note that the abovementioned survey revealed that many students have poor academic records because they a empt to do too many study units. A ention is also drawn to the restrictions in Sc3 and the requirements for readmission to study in Part 1 of the Calendar. 4.3 Compulsory handbooks See under General Information in Part 1 of the Calendar. 4.4 Registration and fees See also under General Information and D1(2): Payment of Fees in Part 1 of the Calendar and the Information Brochure. 4.5 Applications for exemption from study units With due observance of General Rule G17 in Part 1 of the Calendar, students may apply for exemption from study units towards a BSc degree or the National Certificate in Datametrics that are not necessarily offered by the College of Science, Engineering and Technology at Unisa. Such applications for exemption will only be considered on condition that the previous University or Technikon would have granted recognition for that study unit towards a similar degree at that institution. An application form will be found in the Information Brochure. 4.6 Registration for a second BSc Degree or the equivalent See Sc1(2) for the BSc degree and Sc10(2) for the National Certificate in Datametrics. 4.7 Electronic pocket calculators for examination purposes Students may use electronic pocket calculators in the examinations only where special permission is granted by the departments concerned. A pocket calculator used in the examinations must comply with the following requirements: (a) it must be ba ery driven and the ba eries must be fully charged (b) it must not be programmable (c) it must fit into a jacket pocket (d) no calculator literature or instruction manual may be taken into the examination room (e) there may be no notes in or on the calculator (f) calculators may not be passed from one student to another during the examination. For general scientific work the following functions will be adequate: sin, cos, tan, arcsin, arccos, arctan, x, x 2, y x, log, ln, 10 x, e x, two memories, statistics (for Statistics studente) and scientific notation. 4.8 The Science Library Literature for the departments in the College of Science, Engineering and Technology is housed in the Main Library, except books and journals for Chemistry and Physics, and journals for Mathematics, Applied Mathematics and Astronomy, which can be found in the Unisa Science Library, on the first floor of the Science Block of the main Unisa building in Pretoria. The Science Library is open from Mondays to Fridays between 07:45 and 13:00, and between 13:45 and 16:00. Students requiring access to Science Library material outside of these hours can telephone on any weekday before 15:00 and make arrangements to have the relevant material transferred to the Main Library. Further details of Library Services will be found in the Library Regulations in the brochure Services and Procedures which is issued to registered students together with their tutorial ma er. 4.9 Duration of examination papers/modules See the syllabus of the relevant subject in Part 2 of the Calendar. 11

13 C h a p t e r 5 BSc Specialisation Degrees Admission, Definition, Duration of study and number of study units per year for all degrees in this chapter see Sc1, Sc2 and Sc3 This degree can be obtained in the following areas of specialisation: Environmental Management Botany stream See Part 3 of the Calendar Chemistry stream (02089 ENC) Zoology stream See Part 3 of the Calendar Mathematical and Statistical Science Mathematics stream (02089 MMA) Applied Mathematics stream (02089 MAM) Financial Modelling stream (02089 MFI) Mathematical Modelling stream (02089 MMM) Mathematical Statistics stream (02089 MMS) Statistical Decision Science stream (02089 MSD) Statistics for Management stream (02089 MSM) Environmental Statistics stream (02089 MES) Information Technology and Computer Science So ware Engineering stream (02089 ISE) Computational Intelligence stream (02089 ICI) Scientific Computing stream (02089 ISC) Information Systems and Geography stream (02089 ISG) Information Technology Management stream (02089 ITM) Computational Statistics (Programming) stream (02089 ICP) Computational Statistics (Information Systems) stream (02089 ICS) Information and Decision Modelling stream (02089 IDM) Decision Modelling and Computing stream (02089 IDC) Natural Sciences Astronomy stream (02089 NAS) Biochemistry and Botany stream See Part 3 of the Calendar Biochemistry and Chemistry stream (02089 NOC) Biochemistry and Microbiology stream See Part 3 of the Calendar Biochemistry and Physiology stream See Part 3 of the Calendar Biochemistry and Zoology stream See Part 3 of the Calendar Botany and Chemistry stream (02089 C) Botany and Microbiology stream See Part 3 of the Calendar Botany and Zoology stream See Part 3 of the Calendar Chemistry and Mathematics stream (02089 NCM) Chemistry and Microbiology stream (02089 NCK) Chemistry and Physics stream (02089 NCF) Chemistry and Physiology stream (02089 NCP) Chemistry and Zoology stream (02089 NCZ) Microbiology and Physiology stream See Part 3 of the Calendar Microbiology and Zoology stream See Part 3 of the Calendar Physiology and Zoology stream See Part 3 of the Calendar Physics stream (02089 NFI) Physics and Computer Science stream (02089 NFC) BSc (with specialisation in Environmental Management) Purpose: the purpose of the programme is twofold. Firstly, to deliver competent emerging professionals who have a holistic approach to environmental issues as well as a focused knowledge of the human impact on the natural, socio-economic and cultural environments, and who are equipped with the necessary skills and knowledge to participate in the work of an environmental Management team. Secondly, to deliver citizens who have the knowledge to act as responsible and knowledgeable stakeholders in environmental decision making. This degree may be taken in the following specialisation direction in this College: Chemistry Chemistry stream (02089 ENC) Purpose: it will provide BSc graduates with the knowledge, skills and a broad theoretical and practical competence to occupy entry level positions as professionals in the field of environmental management, and who are able to apply their knowledge and skills concerning Geography and Chemistry in environmental analysis and problem solving, specifically relating to air, water and soil pollution as well as other forms of environmental degradation. This stream also forms the basis for further postgraduate studies in Geography and Chemistry. The curriculum comprises 32 modules: FIRST LEVEL This level comprises of 15 modules, the following 14 of which are compulsory: GGH101Q : Know your world: introduction to geography (Geography 101) GGH102R : World issues: a geographical perspective (Geography 102) CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) BLG112J : Biology of plants (Biology 112) BLG113K : Biology of animals (Biology 113) GEL1156 : Environmental geology (Geology 115) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) STS1055 : Basic statistics (Statistics 105) CEM101A : End-user Computing (Information systems 101) and 1 of the following: OPS101G : Introduction to the business world (Operations Research 101) APY101E : The anthropological study of culture in a multicultural context (Anthropology 101) (or SKA100V prior to 2001) APY102F : Culture as human resource in the African context (Anthropology 102) (or SKA100V prior to 2001) DVA101Q : Introduction to development studies (Development Studies 101) COM101X : Introduction to communication (Communication Science 101) SOC101V : Introduction to Sociology: Societal structures and processes (Sociology 101) (or SOS1004 prior to 2001) PYC1023 : Psychology in society (Psychology 102) SECOND LEVEL This level comprises 10 modules, the following 9 of which are compulsory: GGH201T : The African challenge: people and environment (Geography 201) GGH203V : Map and aerial photo interpretation (Geography 203) GGH204W : People and the natural environment: use and impact (Geography 204) GGH205X : Environmental politics (Geography 205) CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) 12

14 CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) ECS208H : Environmental economics (Economics 208) LEG201E : Legal aspects of environmental management (Legal Aspects of Environmental Management 201) and 1 of the following: AGE2018 : Archaeological fieldwork techniques and analytical methods (Archaeology 201) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) PUB206G : Environmental affairs (Public Administration 206) IOP205U : Environmental psychology (Industrial Psychology 205) ENE2019 : Environmental education (Environmental Education 201) GGH206Y : Geography of tourism (Geography 206) THIRD LEVEL This level comprises 7 modules, the following 6 of which are compulsory: GGH301W : State of the people and environment in Southern Africa (Geography 301) GGH302X : Spatial economic development (Geography 302) GGH303Y : Introduction to geographical information systems (Geography 303) GGH3054 : Environmental evaluation and impact assessment (Geography 305) PLS2036 : Environmental philosophy (Philosophy 203) DVA303Y : Projects and programmes as instruments of development (Development Studies 303) and 1 of the following: AGE302C : Applied archaeology: heritage conservation, cultural resource management and archaeotourism (Archaeology 302) PYC305D : Interpersonal skills in diverse contexts (Psychology 305) GGH3043 : Development of urban space (Geography 304) GGH3076 : Ecotourism (Geography 307) BSc (with specialisation in Mathematical and Statistical Science) Purpose: the overall purpose is the education and training of students who will have an understanding of mathematical, statistical, and operations research principles, and are equipped with the necessary skills, knowledge and scientific a itudes required for solving a wide variety of mathematical, statistical and operations research problems (including those in science, engineering, technology, finance and commerce) at various levels of complexity. This degree may be taken in any of the following streams: Mathematics Applied Mathematics Financial Modelling Mathematical Modelling Mathematical Statistics Statistial Decision Science Statistics for Management Environmental Statistics Mathematics stream (02089 MMA) Purpose: the specific purpose of this stream is to bring students to the point where they have mastered the basic theory of the two main traditional branches of Mathematics, viz. real analysis (which includes calculus) and linear algebra, as well as two to four of the following: abstract algebra, complex analysis, discrete mathematics, ordinary differential equations, partial differential equations. Such students are equipped for a wide variety of careers in education (e.g. insurance companies, engineering and technology) and an academic career, depending on the various exit levels, and on the other discipline that the student chooses to study. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 14 modules: MAT110M : Precalculus Mathematics A (Mathematics 110) (if necessary) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) plus 7 or 8 other suitable first-year modules, in 1 or more of the following subjects: Applied Mathematics Astronomy Computer Science Operations Research Physics Statistics It is strongly recommended that the module Statistics 105 (STS1055) be taken, if neither Physics 103 (PHY1038), nor Chemistry 104 (CHE104R) nor any other Statistics modules are chosen from the recommended list of subjects mentioned above. SECOND LEVEL This level comprises the following 8 modules: MAT211R : Linear algebra (Mathematics 211) MAT213T : Real analysis (Mathematics 213) and AT LEAST 2 of the following modules: MAT212S : Introduction to discrete mathematics (Mathematics 212) MAT215V : Calculus in higher dimensions (Mathematics 215) MAT216W : Differential equations (Mathematics 216) MAT217X : Applied dynamical systems (Mathematics 217) MAT2193 : Computer algebra (Mathematics 219) plus 1 to 4 suitable second-year modules to make up the required number of 8 modules in this level, with 1 or more of the following subjects being strongly recommended: Applied Mathematics Astronomy Computer Science Operations Research Physics Statistics THIRD LEVEL This level comprises the following 8 modules: AT LEAST 4 of the following modules: MAT301S : Linear algebra (Mathematics 301) MAT302T : Algebra (Mathematics 302) MAT305W : Complex analysis (Mathematics 305) (if MAT215 is selected in second level) MAT306X : Ordinary differential equations (Mathematics 306) (if MAT216 is selected in second level) MAT307Y : Discrete mathematics: Combinatorics (Mathematics 307) (if MAT212 is selected in second level) MAT311U : Real analysis (Mathematics 311) (if MAT215 is selected in second level) APM301W : Partial differential equations (Applied Mathematics 301) (if MAT217 was selected in second level to make up the required number of 8 modules on this level) plus 2 to 4 other suitable third-level modules to make up the required number of 8 modules on this level with 1 or more of the following subjects being strongly recommended: Applied Mathematics Astronomy Computer Science Operations Research 13

15 14 Physics Statistics Applied Mathematics stream (02089 MAM) Purpose: the specific purpose of this stream is to bring students to the point where they have mastered the basic theory and some of the applications of ordinary differential equations and multivariable calculus: as well as three of four of the following branches of Applied Mathematics: partial differential equations, numerical methods, mechanics, special theory of relativity, discrete mathematics. Such students are also equipped for the careers mentioned for the Mathematics Stream, but will generally have a wider knowledge of the applications of Mathematics, and will be more proficient in practical problem solving and the development of mathematical models. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 14 modules: MAT110M : Precalculus Mathematics A (Mathematics 110) (if necessary) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) plus AT LEAST 2 of the following: APM111S : Mechanics I (Applied Mathematics 111) APM112T : Mechanics II (Applied Mathematics 112) APM113U : Applied linear algebra (Applied Mathematics 113) APM114V : Mathematical modelling (Applied Mathematics 114) plus 3 to 6 other suitable first-year modules (to make up the 14 modules required in this level), with 1 or more of the following subjects being strongly recommended: Astronomy Computer Science Operations Research Physics Statistics It is strongly recommended that the module STS1055 (Statistics 105) be taken, if neither PHY1038 (Physics 103), nor CHE104R (Chemistry 104) nor any other Statistics modules are chosen from the recommended list of subjects mentioned above. SECOND LEVEL This level comprises the following 8 modules: APM211V : Differential equations (Applied Mathematics 211) APM212W : Calculus in higher dimensions (Applied Mathematics 212) and AT LEAST 2 of the following modules: APM213X : Numerical methods 1 (Applied Mathematics 213) APM214Y : Applied dynamical systems (Applied Mathematics 214) APM2164 : Computer algebra (Applied Mathematics 216) plus 3 or 4 other suitable second-year modules (to make up the 8 modules required on this level), with 1 or more of the following subjects being strongly recommended: Astronomy Computer Science Mathematics Operations Research Physics Statistics THIRD LEVEL This level comprises the following 8 modules: At least 4 of the following modules: APM301W : Partial differential equations (Applied Mathematics 301) APM311Y : Numerical methods 2 (Applied Mathematics 311) APM3123 : Mechanics and the calculus of variations (Applied Mathematics 312) APM3134 : Special relativity and Riemannian geometry (Applied Mathematics 313) MAT306X : Ordinary differential equations (Mathematics 306) (if MAT211 was selected on second level) MAT307Y : Discrete mathematics: Combinatorics (Mathematics 307) (if MAT212 was selected on second level) and 2 to 4 suitable other third-level modules to make up the 8 modules required on third level with 1 or more of the following subjects being strongly recommended: Applied Mathematics Astronomy Computer Science Operations Research Physics Statistics Financial modelling stream (02089 MFI) Purpose: the education and training of professionals who will have an understanding of mathematical, statistical, and operations research concepts and principles, and are equipped with the necessary skills, knowledge and scientific a itudes required for solving a wide variety of mathematical, statistical and operations research problems (including those in finance, science, engineering, technology and commerce) at various levels of complexity. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 13 compulsory modules: MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) APM114V : Mathematical modelling (Applied Mathematics 114) OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) ECS1016 : Economics 1A (Economics 101) ECS1028 : Economics 1B (Economics 102) STS1113 : Descriptive statistics and probability (Statistics 111) STS1124 : Data analysis and inference (Statistics 112) IOP101M : Psychological processes in work context (Industrial Psychology 101) COS111U : Introduction to programming 1 (Computer Science 111) SECOND LEVEL This level comprises the following 9 compulsory modules: OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) OPS205P : Financial modelling (Operations Research 205) APM211V : Differential equations (Applied Mathematics 211) APM213X : Numerical methods 1 (Applied Mathematics 213) MAT211R : Linear algebra (Mathematics 211) ECS209J : The South African financial system (Economics 209) STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) THIRD LEVEL This level comprises the following 8 compulsory modules: OPS302P : Optimisation of resources (Operations Research 302) OPS303Q : Simulation (Operations Research 303)

16 OPS304R : Models for strategic decision-making (Operations Research 304) OPS305S : Financial risk modelling (Operations Research 305) APM301W : Partial differential equations (Applied Mathematics 301) APM311Y : Numerical methods 2 (Applied Mathematics 311) MAT306X : Ordinary differential equations (Mathematics 306) IOP311V : Investor psychology (Industrial Psychology 311)) Mathematical modelling stream (02089 MMM) Purpose: this programme provides the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to use Operations Research, Mathematics and Applied Mathematics in a decision-making environment. It aims to integrate a solid understanding of the principles underlying various mathematical techniques with their implementation in the modelling of decision and management problems in the business, financial and related milieus. It also prepares the graduate for postgraduate studies in Operations Research and/or Applied Mathematics. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 13 compulsory modules: OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) STS1113 : Descriptive statistics and probability (Statistics 111) STS1124 : Data analysis and inference (Statistics 112) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) APM113U : Applied linear algebra (Applied Mathematics 113) APM114V : Mathematical modelling (Applied Mathematics 114) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) COS111U : Introduction to programming 1 (Computer Science 111) SECOND LEVEL This level comprises the following 8 compulsory modules: OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) OPS205P : Financial modelling (Operations Research 205) STA202M : Distribution theory (Statistics 202) MAT211R : Linear algebra (Mathematics 211) MAT212S : Introduction to discrete mathematics (Mathematics 212) APM211V : Differential equations (Applied Mathematics 211) APM213X : Numerical methods 1 (Applied Mathematics 213) THIRD LEVEL This level comprises the following 9 compulsory modules: APM301W : Partial differential equations (Applied Mathematics 301) APM311Y : Numerical methods 2 (Applied Mathematics 311) MAT306X : Ordinary differential equations (Mathematics 306) MAT307Y : Discrete mathematics: Combinatorics (Mathematics 307) plus 5 of the following 6 modules OPS301N : Production modelling (Operations Research 301) OPS302P : Optimisation of resources (Operations Research 302) OPS303Q : Simulation (Operations Research 303) OPS304R : Models for strategic decision-making (Operations Research 304) OPS305S : Financial risk modelling (Operations Research 305) OPS306T : Selected topics in Operations Research (Operations Research 306) Mathematical Statistics stream (02089 MMS) Purpose: statistics is the collection and analysis of data, followed by the interpretation and presentation of the information in the data. This stream develops a thorough mathematical foundation on which statistical theories are built. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 13 compulsory modules: STA121M : Descriptive statistics (Statistics 121) STA122N : Probability and probability distributions (Statistics 122) STA123P : Statistical inference (Statistics 123) STA124Q : Data analysis (Statistics 124) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) APM113U : Applied linear algebra (Applied Mathematics 113) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) SECOND LEVEL This level comprises 9 modules, the following 8 of which are compulsory. STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) STA204P : Design of experiments (Statistics 204) STA206R : Sampling and survey methods (Statistics 206) STA208T : Forecasting (Statistics 208) MAT211R : Linear algebra (Mathematics 211) MAT213T : Real analysis (Mathematics 213) MAT215V : Calculus in higher dimensions (Mathematics 215) plus 1 of the following modules: APM213X : Numerical methods 1 (Applied Mathematics 213) MAT212S : Introduction to discrete mathematics (Mathematics 212) MAT216W : Differential equations (Mathematics 216) THIRD LEVEL This level comprises 8 modules, the following 7 of which are compulsory: STA302Q : Distribution theory (Statistics 302) STA303R : Inference (Statistics 303) STA305T : Analysis of variance and regression (Statistics 305) STA306U : Sampling techniques (Statistics 306) STA312S : Time series (Statistics 312) MAT301S : Linear algebra (Mathematics 301) MAT305W : Complex analysis (Mathematics 305) plus 1 of the following modules: MAT302T : Algebra (Mathematics 302) MAT306X : Ordinary differential equations (Mathematics 306) (provided MAT216 was selected on second level) 15

17 16 Statistical Decision Science stream (02089 MSD) Purpose: This stream provides the graduate with knowledge of operations research, statistics and aspects of computer science and informatics. It also prepares the graduate for postgraduate studies in data mining, operations research and statistics. The curriculum comprises 30 modules. CEM101A must be taken for non-degree purpose, if a student is not computer literate. FIRST LEVEL OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) STS1113 : Descriptive statistics and probability (Statistics 111) STS1124 : Data analysis and inference (Statistics 112) MAT103N : Linear algebra (Mathematics 103) MAT112P : Calculus A (Mathematics 112) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) SECOND LEVEL OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) OPS205P : Financial modelling (Operations Research 205) STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) STA204P : Design of experiments (Statistics 204) STA208T : Forecasting (Statistics 208) STA311R : Matrix methods in statistics (Statistics 311) COS211X : Programming: data structures (Computer Science 211) COS2144 : Programming: contemporary concepts (Computer Science 214) INF206D : Systems analysis and design methods (Information Systems 206) THIRD LEVEL OPS302P : Optimisation of resources (Operations Research 302) OPS303Q : Simulation (Operations Research 303) OPS304R : Models for strategic decision-making (Operations Research 304) OPS305S : Financial risk modelling (Operations Research 305) STA302Q : Distribution theory (Statistics 302) STA303R : Inference (Statistics 303) STA305T : Analysis of variance and regression (Statistics 305) STA312S : Time series (Statistics 312) INF303D : Principles of databases (Information Systems 303) INF307H : Database design and implementation (Information Systems 307) Should a student wish to continue with an honours degree in Information Systems, the following modules should be added (for non-degree purposes): INF207E : Object-oriented concepts (Information Systems 207) INF305F : Advanced systems development (Information Systems 305) INF308J : So ware project management (Information Systems 308) Statistics for Management stream (02089 MSM) Purpose: this stream develops programming, modelling, simulation, risk analysis, forecasting and statistical techniques required to solve problems in manufacturing, banking, business management and management consultancy. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 13 compulsory modules: STA121M : Descriptive statistics (Statistics 121) STA122N : Probability and probability distributions (Statistics 122) STA123P : Statistical inference (Statistics 123) STA124Q : Data analysis (Statistics 124) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) CEM101A : End-user Computing (Information systems 101) INF1059 : Introduction to Business Information Systems (Information Systems 105) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) SECOND LEVEL This level comprises 9 modules, of which 8 are compulsory: STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) STA208T : Forecasting (Statistics 208) MAT211R : Linear algebra (Mathematics 211) MAT215V : Calculus in higher dimensions (Mathematics 215) OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) OPS205P : Financial modelling (Operations Research 205) plus 1 of the following 2 modules: STA204P : Design of experiments (Statistics 204) STA206R : Sampling and survey methods (Statistics 206) THIRD LEVEL This level comprises 8 modules, the following 6 of which are compulsory: STA302Q : Distribution theory (Statistics 302) STA303R : Inference (Statistics 303) STA305T : Analysis of variance and regression (Statistics 305) plus 3 of the following 4 modules: OPS301N : Production modelling (Operations Research 301) OPS303Q : Simulation (Operations Research 303) OPS305S : Financial risk modelling (Operations Research 305) OPS306T : Selected topics in Operations Research (Operations Research 306) plus the following 2 modules: STA306U : Sampling techniques (Statistics 306) and STA312S : Time series (Statistics 312) or 1 of: OPS302P : Optimisation of resources (Operations Research 302) OPS304R : Models for strategic decision-making (Operations Research 304) and 1 of STA306U : Sampling techniques (Statistics 306) STA312S : Time series (Statistics 312)

18 Environmental Statistics stream (02089 MES) Purpose: this stream provides the statistical and geographical knowledge required to solve problems as environmental evaluation, population, spatial structures, and interpretation of aerial photos. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 13 compulsory modules: STA121M : Descriptive statistics (Statistics 121) STA122N : Probability and probability distributions (Statistics 122) STA123P : Statistical inference (Statistics 123) STA124Q : Data analysis (Statistics 124) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) GGH101Q : Know your world: introduction to geography (Geography 101) GGH102R : World issues: a geographical perspective (Geography 102) CEM101A : End-user Computing (Information systems 101) INF1059 : Introduction to Business Information Systems (Information Systems 105) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) SECOND LEVEL This level comprises 9 modules, the following 7 of which are compulsory: STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) STA208T : Forecasting (Statistics 208) MAT211R : Linear algebra (Mathematics 211) MAT215V : Calculus in higher dimensions (Mathematics 215) GGH203V : Map and aerial photo interpretation (Geography 203) GGH204W : People and the natural environment: use and impact (Geography 204) plus 1 of the following modules: STA204P : Design of experiments (Statistics 204) STA206R : Sampling and survey methods (Statistics 206) plus 1 of the following modules: GGH201T : The African challenge: people and environment (Geography 201) GGH202U : The geography of basic services provision (Geography 202) INF206D : Systems analysis and design methods (Information Systems 206) THIRD LEVEL This level comprises 8 modules, the following 7 of which are compulsory: STA302Q : Distribution theory (Statistics 302) STA303R : Inference (Statistics 303) STA305T : Analysis of variance and regression (Statistics 305) GGH301W : State of the people and environment in Southern Africa (Geography 301) GGH302X : Spatial economic development (Geography 302) GGH303Y : Introduction to geographical information systems (Geography 303) GGH3054 : Environmental evaluation and impact assessment (Geography 305) plus 1 of the following modules: STA306U : Sampling techniques (Statistics 306) STA312S : Time series (Statistics 312) BSc (with specialisation in Information Technology and Computer Science) Purpose: the overall purpose of the programme is the education and training of responsible and competent Information Technology and Computer Science professionals/practitioners in a wide variety of specialisation areas. The degree can be taken in any of the following streams: So ware Engineering Computational Intelligence Scientific Computing Information Systems and Geography Information Technology Management Computational Statistics (Programming) Computational Statistics (Information Systems) Information and Decision Modelling Decision Modelling and Computing Software Engineering stream (02089 ISE) Purpose: this programme stream concerns the development of robust and reliable so ware. It will provide the BSc graduate with the knowledge, specific skills and applied and theoretical competence to occupy entry level positions involved in the development of computer based systems ranging from business applications to so ware control systems in power plants, aircra, medical devices, etc. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 10 of which are compulsory. INF1059 : Introduction to Business Information Systems (Information Systems 105) INF1208 : Human-computer interaction I (Information Systems 120) COS101S : Theoretical computer science 1 (Computer Science 101) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) COS114X : Introduction to visual programming (Computer Science 114) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) STS1055 : Basic statistics (Statistics 105) CEM101A : End-user Computing (Information systems 101) plus 4 suitable first-year modules. If COS2338 is chosen on second level the following 3 modules must be included: MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT103N : Linear algebra (Mathematics 103) If COS340A is chosen on third level, MAT103N must be included. SECOND LEVEL This level comprises 8 modules, the following 4 of which are compulsory: INF206D : Systems analysis and design methods (Information Systems 206) INF207E : Object-oriented concepts (Information Systems 207) COS211X : Programming: data structures (Computer Science 211) COS2144 : Programming: contemporary concepts (Computer Science 214) and 4 of the following modules: COS201V : Theoretical computer science 2 (Computer Science 201) 17

19 COS2213 : Computer organisation (Computer Science 221) COS2269 : Computer networks I (Computer Science 226) COS2338 : Numerical methods 1 (Computer Science 233) COS261C : Formal logic 2 (Computer Science 261) THIRD LEVEL This level comprises 8 modules, the following 2 of which are compulsory: INF303D : Principles of databases (Information Systems 303) INF305F : Advanced systems development (Information Systems 305) plus at least 1 of the following modules: INF307H : Database design and implementation (Information Systems 307) INF308J : So ware project management (Information Systems 308) INF320E : Human-computer interaction II (Information Systems 320) plus at least 3 of the following modules: COS301Y : Theory of computer science 3 (Computer Science 301) COS3114 : Advanced programming (Computer Science 311) COS3216 : Operating systems and architecture (Computer Science 321) COS340A : Computer graphics (Computer Science 340) COS351D : Techniques of artificial intelligence (Computer Science 351) The remaining modules may also include: COS332A : Numerical methods 2 (Computer Science 332) COS361F : Formal logic 3 (Computer Science 361) Computational Intelligence stream (02089 ICI) Purpose: this programme stream concerns the development of computer so ware to solve problems such as game playing, logical inference and theory, improving, planning, medical diagnosis, learning, vision, robotics, and natural language understanding. The programme aims to educate and train computational intelligence professionals/practitioners that possess and are able to apply these skills. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 11 of which are compulsory. COS101S : Theoretical computer science 1 (Computer Science 101) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) INF1208 : Human-computer interaction I (Information Systems 120 MAT112P : Calculus A (Mathematics 112) MAT111N : Precalculus Mathematics B (Mathematics 111) PYC101Y : Basic psychology (Psychology 101) COS111U : Introduction to programming 1 (Computer Science 111) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) STS1055 : Basic statistics (Statistics 105) CEM101A : End-user Computing (Information systems 101) plus 3 of the following modules: COS114X : Introduction to visual programming (Computer Science 114) MAT103N : Linear algebra (Mathematics 103) OPS101G : Introduction to the business world (Operations Research 101) PLS102Y : Critical reasoning (Philosophy 102) LIN101W : Grammatical concepts (Linguistics 101) SECOND LEVEL This level comprises 8 modules, the following 4 of which are compulsory. COS201V : Theoretical computer science 2 (Computer Science 201) COS211X : Programming: data structures (Computer Science 211) COS261C : Formal logic 2 (Computer Science 261) COS2144 : Programming: contemporary concepts (Computer Science 214) plus 4 of the following modules: COS2213 : Computer organisation (Computer Science 221) COS2338 : Numerical methods 1 (Computer Science 233) MAT212S : Introduction to discrete mathematics (Mathematics 212) LIN309F : Text structure and function (Linguistics 309) LIN2024 : Linguistic categorisation (Linguistics 202) PLS207B : Philosophy of science (Philosophy 207) THIRD LEVEL This level comprises 8 modules, the following 5 of which are compulsory: COS301Y : Theory of computer science 3 (Computer Science 301) INF320E : Human-computer interaction II (Information Systems 320) COS351D : Techniques of artificial intelligence (Computer Science 351) COS361F : Formal logic 3 (Computer Science 361) PYC303B : Cognition: thinking, memory and problem solving (Psychology 303) plus 3 of the following modules: COS3114 : Advanced programming (Computer Science 311) COS332A : Numerical methods 2 (Computer Science 332) MAT307Y : Discrete mathematics: Combinatorics (Mathematics 307) INF303D : Principles of databases (Information Systems 303) LIN3028 : Approaches in Linguistics (Linguistics 302) COS340A : Computer graphics (Computer Science 340) PLS303A : Mind and reality (Philosophy 303) Scientific Computing stream (02089 ISC) Purpose: this programme stream aims to educate and train practitioners/ professionals with specialisation in computational abilities and scientific programming as applied in Mathematics, Statistics, Quantitative Management, Applied Mathematics, Geography, Physics and Chemistry. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 13 compulsory modules. COS101S : Theoretical computer science 1 (Computer Science 101) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) APM113U : Applied linear algebra (Applied Mathematics 113) APM114V : Mathematical modelling (Applied Mathematics 114) COS111U : Introduction to programming 1 (Computer Science 111) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) STS1055 : Basic statistics (Statistics 105) CEM101A : End-user Computing (Information systems 101) 18

20 SECOND LEVEL This level comprises the following 9 compulsory modules. COS201V : Theoretical computer science 2 (Computer Science 201) COS211X : Programming: data structures (Computer Science 211) COS2144 : Programming: contemporary concepts (Computer Science 214) COS2213 : Computer organisation (Computer Science 221) COS2338 : Numerical methods 1 (Computer Science 233) OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) MAT212S : Introduction to discrete mathematics (Mathematics 212) COS2269 : Computer networks I (Computer Science 226) THIRD LEVEL This level comprises the following 8 compulsory modules: COS301Y : Theory of computer science 3 (Computer Science 301) COS3114 : Advanced programming (Computer Science 311) COS332A : Numerical methods 2 (Computer Science 332) COS3216 : Operating systems and architecture (Computer Science 321) MAT307Y : Discrete mathematics: Combinatorics (Mathematics 307) INF303D : Principles of databases (Information Systems 303) OPS302P : Optimisation of resources (Operations Research 302) COS340A : Computer graphics (Computer Science 340) Information Technology Management stream (02089 ITM) Purpose: the emphasis of this stream is on information technology and the management thereof. The information Technology management stream has a strong technical basis, but includes business exposure to prepare students for a career in so ware development in a business environment and eventually for the management of information technology in an enterprise. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 13 modules, the following 12 of which are compulsory: INF1059 : Introduction to Business Information Systems (Information Systems 105) COS112V : Introduction to programming 2 (Computer Science 112) COS114X : Introduction to visual programming (Computer Science 114) COS113W : Computer systems: fundamental concepts (Computer Science 113) M101D : Business management 1A (Business Management 101) M102E : Business management 1B (Business Management 102) ACN101M : Accounting concepts, principles and procedures (Accounting 101) ACN102N : Accounting reporting (Accounting 102) COS111U : Introduction to programming 1 (Computer Science 111) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) STS1055 : Basic statistics (Statistics 105) CEM101A : End-user Computing (Information systems 101) plus 1 of the following modules: INF1208 : Human-computer interaction I (Information Systems 120) COS101S : Theoretical computer science 1 (Computer Science 101) QMG101P/QMS101D : Mathematical modelling I (Quantitative Management 101) QMG102Q/QMS102E : Introductory financial mathematics (Quantitative Management 102) OPS101G : Introduction to the business world (Operations Research 101) SECOND LEVEL This level comprises 9 modules, the following 8 of which are compulsory: INF206D : Systems analysis and design methods (Information Systems 206) INF207E : Object-oriented concepts (Information Systems 207) COS2269 : Computer networks I (Computer Science 226) COS211X : Programming: data structures (Computer Science 211) COS2144 : Programming: contemporary concepts (Computer Science 214) COS2213 : Computer organisation (Computer Science 221) MNG2016 : General management (Business Management 201) AUI2028 : The internal auditing process (Internal Auditing 202) plus 1 of the following modules: DPA202T : Practical accounting data processing (Accounting Data Processing 202) MNE202V : Introduction to entrepreneurship and smallbusiness management (Business Management 202) MNF2023 : Financial management (Business Management 202) MNH202C : Human resources management (Business Management 202) MNK203R : Enterprise risk management (Business Management 203) MNM202Y : Marketing management (Business Management 202) MNO202B : Production and operations management (Business Management 202) THIRD LEVEL This level comprises 8 modules, the following 6 of which are compulsory: INF303D : Principles of databases (Information Systems 303) INF305F : Advanced systems development (Information Systems 305) INF307H : Database design and implementation (Information Systems 307) INF308J : So ware project management (Information Systems 308) MNG301A : Strategic management 3A (Business Management 301) MNG302B : Strategic management 3B (Business Management 302) plus 2 of the following modules: COS3114 : Advanced programming (Computer Science 311) COS3216 : Operating systems and architecture (Computer Science 321) INF320E : Human-computer interaction II (Information Systems 320) Computational Statistics (Programming) stream (02089 ICP) Purpose: statistics requires the intelligent, critical and judicious use of computers this stream provides the necessary statistical and computational techniques and skills required to make a meaningful contribution to any computing team. The curriculum comprises 30 modules. 19

21 FIRST LEVEL This level comprises 14 modules, the following 13 of which are compulsory. STA121M : Descriptive statistics (Statistics 121) STA122N : Probability and probability distributions (Statistics 122) STA123P : Statistical inference (Statistics 123) STA124Q : Data analysis (Statistics 124) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) plus 1 of the following modules: INF1059 : Introduction to Business Information Systems (Information Systems 105) OPS101G : Introduction to the business world (Operations Research 101) SECOND LEVEL This level comprises the following 9 modules of which 8 are compulsory: STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) STA208T : Forecasting (Statistics 208) MAT211R : Linear algebra (Mathematics 211) MAT215V : Calculus in higher dimensions (Mathematics 215) COS211X : Programming: data structures (Computer Science 211) COS2144 : Programming: contemporary concepts (Computer Science 214) COS2338 : Numerical methods 1 (Computer Science 233) plus 1 of the following 2 modules: STA204P : Design of experiments (Statistics 204) STA206R : Sampling and survey methods (Statistics 206) THIRD LEVEL This level comprises the following 7 compulsory modules: 20 STA302Q : Distribution theory (Statistics 302) STA303R : Inference (Statistics 303) STA305T : Analysis of variance and regression (Statistics 305) STA306U : Sampling techniques (Statistics 306) STA312S : Time series (Statistics 312) COS332A : Numerical methods 2 (Computer Science 332) INF303D : Principles of databases (Information Systems 303) Computational Statistics (Information Systems) stream (02089 ICS) Purpose: this stream aims to educate and train statistical practitioners and professionals primarily involved in the business information needs of an organisation. It provides a sound understanding of computers databases, and the essence of statistical theory. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 14 compulsory modules: STA121M : Descriptive statistics (Statistics 121) STA122N : Probability and probability distributions (Statistics 122) STA123P : Statistical inference (Statistics 123) STA124Q : Data analysis (Statistics 124) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) INF1059 : Introduction to Business Information Systems (Information Systems 105) OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) COS114X : Introduction to visual programming (Computer Science 114) SECOND LEVEL This level comprises 8 modules of which the following 7 are compulsory: STA202M : Distribution theory (Statistics 202) STA203N : Applied statistics (Statistics 203) STA208T : Forecasting (Statistics 208) MAT211R : Linear algebra (Mathematics 211) MAT215V : Calculus in higher dimensions (Mathematics 215) INF206D : Systems analysis and design methods (Information Systems 206) INF207E : Object-oriented concepts (Information Systems 207) plus 1 of the following 2 modules: STA204P : Design of experiments (Statistics 204) STA206R : Sampling and survey methods (Statistics 206) THIRD LEVEL This level comprises 8 modules, the following 7 of which are compulsory: STA302Q : Distribution theory (Statistics 302) STA303R : Inference (Statistics 303) STA305T : Analysis of variance and regression (Statistics 305) INF303D : Principles of databases (Information Systems 303) INF305F : Advanced systems development (Information Systems 305) INF307H : Database design and implementation (Information Systems 307) INF308J : So ware project management (Information Systems 308) plus 1 of the following modules: STA306U : Sampling techniques (Statistics 306) STA312S : Time series (Statistics 312) Informatics and Decision Modelling stream (02089 IDM) Purpose: this programme provides the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to use Operations Research and Information Systems in a decision-making environment. It aims to integrate modelling skills, algorithmic and heuristic techniques from Operations Research with computer Systems principles and practice. It also prepares the graduate for postgraduate studies in Operations Research and/or Information Systems. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 13 of which are compulsory. OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) STS1113 : Descriptive statistics and probability (Statistics 111) STS1124 : Data analysis and inference (Statistics 112) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112)

22 MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) INF1059 : Introduction to Business Information Systems (Information Systems 105) INF1208 : Human-computer interaction I (Information Systems 120) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) COS114X : Introduction to visual programming (Computer Science 114) plus 1 of the following modules: PLS207B : Philosophy of science (Philosophy 207) COS101S : Theoretical computer science 1 (Computer Science 101) QMS101D : Mathematical modelling I (Quantitative Management 101) SECOND LEVEL This level comprises 7 modules: OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) OPS205P : Financial modelling (Operations Research 205) STA202M : Distribution theory (Statistics 202) INF206D : Systems analysis and design methods (Information Systems 206) INF207E : Object-oriented concepts (Information Systems 207) COS2338 : Numerical methods 1 (Computer Science 233) THIRD LEVEL This level comprises the following 9 modules of which the following 7 are compulsory: INF303D : Principles of databases (Information Systems 303) INF305F : Advanced systems development (Information Systems 305) OPS301N : Production modelling (Operations Research 301) OPS302P : Optimisation of resources (Operations Research 302) OPS303Q : Simulation (Operations Research 303) OPS304R : Models for strategic decision-making (Operations Research 304) OPS305S : Financial risk modelling (Operations Research 305) plus 2 of the following modules: INF307H : Database design and implementation (Information Systems 307) INF308J : So ware project management (Information Systems 308) INF320E : Human-computer interaction II (Information Systems 320) Information Systems and Geography stream (02089 ISG) Purpose: This stream equips students with the skills, knowledge and insight concerning information technology and geographical and other relevant applications, together with decision-support methodologies, in order for them to qualify for entry level positions in the field of Geographical Information Systems and to pursue postgraduate studies to specialise in this field. The curriculum comprises 30 modules FIRST LEVEL This level comprises 11 modules, the following 10 of which are compulsory: CEM101A : End-user Computing (Information systems 101) INF1059 : Introduction to Business Information Systems (Information Systems 105) INF1208 : Human-computer interaction I (Information Systems 120) COS113W : Computer systems: fundamental concepts (Computer Science 113) COS114X : Introduction to visual programming (Computer Science 114) STS1055 : Basic statistics (Statistics 105) AGE1014 : Introduction to archaeology (Archaeology 101) GGH101Q : Know your world: introduction to geography (Geography 101) GGH102R : World issues: a geographical perspective (Geography 102) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) plus one of the following modules: QMG101P : Quantitative modelling I (Quantitative Management 101) QMS101D : Mathematical modelling I (Quantitative Management 101) SECOND LEVEL This level comprises 9 modules, the following 8 of which are compulsory: INF206D : Systems analysis and design methods (Information Systems 206) INF207E : Object-oriented concepts (Information Systems 207) GGH201T : The African challenge: people and environment (Geography 201) GGH202U : The geography of basic services provision (Geography 202) GGH203V : Map and aerial photo interpretation (Geography 203) GGH204W : People and the natural environment: use and impact (Geography 204) QMG201S : Mathematical programming (Quantitative management 201) QMG202T : Rational decision-making (Quantitative management 202) plus one of the following modules: AGE2018 : Archaeological fieldwork techniques and analytical methods (Archaeology 201) COS2269 : Computer networks I (Computer Science 226) THIRD LEVEL This level comprises 10 modules, the following 8 of which are compulsory: INF303D : Principles of databases (Information Systems 303) INF305F : Advanced systems development (Information Systems 305) INF307H : Database design and implementation (Information Systems 307) INF320E : Human-computer interaction II (Information Systems 320) GGH301W : State of the people and environment in Southern Africa (Geography 301) GGH302X : Spatial economic development (Geography 302) GGH303Y : Introduction to geographical information systems (Geography 303) GGH3043 : Development of urban space (Geography 304) plus two of the following modules: INF308J : So ware project management (Information Systems 308) QMG302W : Optimisation of resources (Quantitative management 302) QMG303X : Simulation (Quantitative management 303) QMG304Y : Models for strategic decision-making (Quantitative management 304) QMG3053 : Risk analysis techniques (Quantitative management 305) AGE302C : Applied archaeology: heritage conservation, cultural resource management and archaeotourism (Archaeology 302) GGH3054 : Environmental evaluation and impact assessment (Geography 305) 21

23 22 Decision Modelling and Computing stream (02089 IDC) Purpose: this programme provides the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to use Operations Research and Computer Science in a decision-making environment. Graduates are equipped with the modelling skills and numerical and programming techniques needed to solve real-life decision and management problems. It also prepares the graduate for postgraduate studies in Operations Research and/or Computer Science. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 13 compulsory modules. OPS101G : Introduction to the business world (Operations Research 101) OPS102H : Modelling in a financial environment (Operations Research 102) STS1113 : Descriptive statistics and probability (Statistics 111) STS1124 : Data analysis and inference (Statistics 112) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) COS101S : Theoretical computer science 1 (Computer Science 101) CEM101A : End-user Computing (Information systems 101) COS111U : Introduction to programming 1 (Computer Science 111) SECOND LEVEL This level comprises the following 9 compulsory modules: OPS201K : Mathematical programming (Operations Research 201) OPS202L : Rational decision making (Operations Research 202) OPS205P : Financial modelling (Operations Research 205) STA202M : Distribution theory (Statistics 202) COS211X : Programming: data structures (Computer Science 211) COS2144 : Programming: contemporary concepts (Computer Science 214) COS2338 : Numerical methods 1 (Computer Science 233) COS2213 : Computer organisation (Computer Science 221) COS261C : Formal logic 2 (Computer Science 261) THIRD LEVEL This level comprises the following 8 compulsory modules: COS3114 : Advanced programming (Computer Science 311) COS3216 : Operating systems and architecture (Computer Science 321) COS332A : Numerical methods 2 (Computer Science 332) COS351D : Techniques of artificial intelligence (Computer Science 351) OPS301N : Production modelling (Operations Research 301) OPS302P : Optimisation of resources (Operations Research 302) OPS303Q : Simulation (Operations Research 303) OPS305S : Financial risk modelling (Operations Research 305) BSc (with specialisation in Natural Sciences) Purpose: the overall purpose of the programme is the education and training of professionals who will have an understanding of concepts and principles in a variety of specialisation areas in Science, and are equipped with the necessary skills, knowledge and scientific a itudes required for solving a wide variety of problems in one or more of these areas at various levels of complexity. This degree may be taken in any of the following streams in this College: Astronomy Biochemistry and Chemistry Botany and Chemistry Chemistry and Mathematics Chemistry and Microbiology Chemistry and Physics Chemistry and Physiology Chemistry and Zoology Physics Physics and Computer Science Astronomy stream (02089 NAS) Purpose: the overall purpose of this stream is the education and training of professionals who will have an understanding of astronomical concepts and principles, and are equipped with the necessary skills, knowledge and scientific a itudes required for solving a wide variety of problems in astronomy and related disciplines at various levels of complexity. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following of which are compulsory. AST131F : General introduction to astronomy (Astronomy 131) AST134J : Spherical astronomy and Kepler orbits (Astronomy 134) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) PHY1038 : Practical work (Physics 103) PHY1049 : Modern physics (Physics 104) PHY105A : Mechanics (Physics 105) PHY106B : Electromagnetism and heat (Physics 106) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) plus 2 other modules. A selection from the following modules are strongly recommended: STS1055 : Basic statistics (Statistics 105) APM113U : Applied linear algebra (Applied Mathematics 113) APM114V : Mathematical modelling (Applied Mathematics 114) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) SECOND LEVEL This level comprises the following 8 compulsory modules: AST251N : The structure and evolution of stars (Astronomy 251) AST252P : The structure and evolution of galaxies (Astronomy 252) AST255S : Astronomy Practical (Astronomy 255) MAT215V : Calculus in higher dimensions (Mathematics 215) or APM212W : Calculus in higher dimensions (Applied Mathematics 212) MAT216W : Differential equations (Mathematics 216) or APM211V : Differential equations (Applied Mathematics 211) PHY2019 : Classical mechanics (Physics 201) PHY202A : Electricity and magnetism (Physics 202) PHY206E : Waves (Physics 206)

24 THIRD LEVEL This level comprises 8 modules, the following which are compulsory: PHY302D : Quantum physics (Physics 302) PHY303E : Statistical physics (Physics 303) APM3123 : Mechanics and the calculus of variations (Applied Mathematics 312) APM3134 : Special relativity and Riemannian geometry (Applied Mathematics 313) AST355V : Advanced Astronomy Practical (Astronomy 355) AST363V : Observational Techniques (Astronomy 363) plus 2 appropriate second or third year modules. A selection from the following modules is strongly recommended: MAT2193 : Computer algebra (Mathematics 219) MAT305W : Complex analysis (Mathematics 305) MAT306X : Ordinary differential equations (Mathematics 306) COS2338 : Numerical methods 1 (Computer Science 233) APM301W : Partial differential equations (Applied Mathematics 301) COS332A : Numerical methods 2 (Computer Science 332) Biochemistry and Chemistry stream (02089 NOC) Purpose: this stream will provide the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to occupy entry-level positions as professionals for a wide range of vocations such as medical research, agriculture as well as the chemical, food and biotechnological industries or as teachers. This program also forms the basis for further postgraduate studies in Chemistry and Biochemistry. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 14 modules: CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) BLG111H : Basic Biology (Biology 111) BLG112J : Biology of plants (Biology 112) BLG113K : Biology of animals (Biology 113) BLG114L : Practical (Biology 114) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) plus 2 of the following modules: MAT103N : Linear algebra (Mathematics 103) STS1055 : Basic statistics (Statistics 105) PLS207B : Philosophy of science (Philosophy 207) OPS101G : Introduction to the business world (Operations Research 101) SECOND LEVEL This level comprises the following 8 compulsory modules: CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) BCH2118 : Introductory biochemistry (Biochemistry 211) BCH2129 : Bioenergetics (Biochemistry 212) BCH213A : Biopolymers of heredity (Biochemistry 213) BCH214B : Experimental biochemistry (Biochemistry 214) THIRD LEVEL This level comprises the following 8 compulsory modules: CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) BCH311B : Enzymology (Biochemistry 311) BCH312C : Advanced metabolism (Biochemistry 312) BCH313D : Molecular genetics (Biochemistry 313) BCH314E : Analytical biochemistry and practical (Biochemistry 314) Botany and Chemistry stream (02089 C) Purpose: this stream will provide the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence in Chemistry and in plants and their environment to occupy entry-level positions as professionals for a wide range of vocations such as the teaching, in industry, forestry, plant breeding and in other sectors where knowledge of Botany and Chemistry is needed. Graduates may continue with studies at a postgraduate level in Chemistry, Botany, Ecology or Environmental Sciences. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 12 of which are compulsory: BOT131W : Plant structure: cytology, morphology and anatomy (Botany 131) BOT132X : Biodiversity (Botany 132) BOT133Y : Plant diversity and environmental botany (Botany 133) BOT1343 : Practical (Botany 134) CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) plus 2 of the following modules: MAT103N : Linear algebra (Mathematics 103) ZOL121Q : Animal diversity 1 (Zoology 121) ZOL122R : Animal diversity 2 (Zoology 122) ZOL123S : Animal diversity 3 (Zoology 123) SECOND LEVEL This level comprises the following 8 compulsory modules: CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) BOT221X : Systematics of non-vascular plants (Botany 221) BOT222Y : Systematics of vascular plants (Botany 222) BOT2233 : Plant anatomy and physiology (Botany 223) BOT2244 : Practical (Botany 224) 23

25 THIRD LEVEL This level comprises the following 8 compulsory modules: 24 CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) BOT3214 : Plant physiology (Botany 321) BOT3225 : Aquatic ecology (Botany 322) BOT3236 : Terrestrial ecology (Botany 323) BOT3248 : Practical (Botany 324) Chemistry and Mathematics stream (02089 NCM) Purpose: this stream will provide the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to occupy entry level positions in teaching Mathematics and Physical Science, as technicians in the chemical, mining and petroleum industry or to continue with Chemistry or Mathematics at a postgraduate level. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 10 of which are compulsory: CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) plus 4 of the following modules: COS111U : Introduction to programming 1 (Computer Science 111) LGC1014 : Formal logic 1 (Computer Science 161) COS113W : Computer systems: fundamental concepts (Computer Science 113) PLS207B : Philosophy of science (Philosophy 207) OPS101G : Introduction to the business world (Operations Research 101) APM113U : Applied linear algebra (Applied Mathematics 113) APM114V : Mathematical modelling (Applied Mathematics 114) STS1055 : Basic statistics (Statistics 105) SECOND LEVEL This level comprises 8 modules, the following 6 of which are compulsory: CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) MAT211R : Linear algebra (Mathematics 211) MAT213T : Real analysis (Mathematics 213) plus 2 of the following modules: MAT212S : Introduction to discrete mathematics (Mathematics 212) MAT215V : Calculus in higher dimensions (Mathematics 215) MAT216W : Differential equations (Mathematics 216) MAT2193 : Computer algebra (Mathematics 219) APM214Y : Applied dynamical systems (Applied Mathematics 214) THIRD LEVEL This level comprises 8 modules, of which the following 6 are compulsory CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) MAT301S : Linear algebra (Mathematics 301) MAT302T : Algebra (Mathematics 302) plus 2 of the following modules: MAT307Y : Discrete mathematics: Combinatorics (Mathematics 307) MAT305W : Complex analysis (Mathematics 305) MAT306X : Ordinary differential equations (Mathematics 306) MAT311U : Real analysis (Mathematics 311) Chemistry and Microbiology stream (02089 NCK) Purpose: this stream will provide the BSc graduate with the knowledge, specific skills and applied and theoretical competence to occupy entrylevel positions in the teaching, in the chemical, pharmaceutical and brewing industry, in agriculture or environmental vocations, in health and food-related industries or to continue with studies in Chemistry and Microbiology at a postgraduate level. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 12 of which are compulsory: CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) BLG111H : Basic Biology (Biology 111) BLG112J : Biology of plants (Biology 112) BLG113K : Biology of animals (Biology 113) BLG114L : Practical (Biology 114) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) plus 2 of the following modules: MAT103N : Linear algebra (Mathematics 103) STS1055 : Basic statistics (Statistics 105) PLS207B : Philosophy of science (Philosophy 207) OPS101G : Introduction to the business world (Operations Research 101) SECOND LEVEL This level comprises the following 8 compulsory modules: CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224)

26 MIB221Q : Introductory Microbiology (Microbiology 221) MIB222R : Microbial ecology (Microbiology 222) MIB223S : Introductory microbial genetics, immunology and epidemiology (Microbiology 223) MIB224T : Practical microbiology II (Microbiology 224) THIRD LEVEL This level comprises the following 8 compulsory modules: CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) MIB321T : Microbial physiology (Microbiology 321) MIB322U : Advanced microbial genetics, recombinant DNA technology and industrial microbiology (Microbiology 322) MIB323V : Microbial diversity (Microbiology 323) MIB324W : Practical Microbiology III (Microbiology 324) Chemistry and Physics stream (02089 NCF) Purpose: this stream will provide the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to occupy entry level positions in the teaching of Physical Science, as technicians in the chemical, mining, petroleum, electrical and applied technological industries or to continue with Chemistry, Physics or Material Science at a postgraduate level. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 14 compulsory modules: CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) PHY1038 : Practical work (Physics 103) PHY1049 : Modern physics (Physics 104) PHY105A : Mechanics (Physics 105) (or PHY101 with at least 65% prior to 2007) PHY106B : Electromagnetism and heat (Physics 106) (or PHY102 with at least 65% prior to 2007) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) Students who have passed MAT113 need not register for MAT111 and MAT112 but may choose any 2 of the following modules: STS1055 : Basic statistics (Statistics 105) OPS101G : Introduction to the business world (Operations Research 101) PLS207B : Philosophy of science (Philosophy 207) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) LGC1014 : Formal logic 1 (Computer Science 161) SECOND LEVEL This level comprises the following 8 modules, the following 7 of which are compulsory: CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) PHY2019 : Classical mechanics (Physics 201) PHY202A : Electricity and magnetism (Physics 202) PHY206E : Waves (Physics 206) plus 1 other of the following modules: PHY204C : Practical work (Physics 204) COS2144 : Programming: contemporary concepts (Computer Science 214) COS261C : Formal logic 2 (Computer Science 261) MAT211R : Linear algebra (Mathematics 211) THIRD LEVEL This level comprises 8 modules, the following 6 of which are compulsory: CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) PHY302D : Quantum physics (Physics 302) PHY303E : Statistical physics (Physics 303) plus 2 of the following modules: PHY307J : Solid state physics (Physics 307) PHY308K : Atomic and nuclear physics (Physics 308) PHY310D : Mechanics and the calculus of variations (Physics 310) Chemistry and Physiology stream (02089 NCP) Purpose: this stream will provide the BSc graduate with the knowledge, specific skills and a broad theoretical and practical competence to occupy entry-level positions as professionals for a wide range of vocations such as medical and related professions, the chemical and food industries, dietetics, occupational hygiene, sport physiology and biokinetics and environmental sciences. This program also forms the basis for further postgraduate studies in Chemistry and Physiology. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 13 of which are compulsory: CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) BLG111H : Basic Biology (Biology 111) BLG112J : Biology of plants (Biology 112) BLG113K : Biology of animals (Biology 113) BLG114L : Practical (Biology 114) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) STS1055 : Basic statistics (Statistics 105) plus 1 of the following modules: PLS207B : Philosophy of science (Philosophy 207) OPS101G : Introduction to the business world (Operations Research 101) 25

27 SECOND LEVEL This level comprises the following 8 compulsory modules: 26 CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) FIS211K : Digestion, endocrine control and metabolism (Physiology 211) FIS212L : Respiration and excretion (Physiology 212) FIS213M : Physiological defence mechanisms (Physiology 213) FIS214N : Practical (Physiology 214) THIRD LEVEL This level comprises the following 8 compulsory modules: CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) FIS311N : Physiology of the nervous system (Physiology 311) FIS312P : Cardiovascular system (Physiology 312) FIS313Q : Membrane and effector physiology (Physiology 313) FIS314R : Practical (Physiology 314) Chemistry and Zoology stream (02089 NCZ) Purpose: this stream will provide the BSc. graduate with the knowledge, specific skills and a broad theoretical and practical competence in Chemistry and Zoology to occupy entry-level positions in teaching, as technicians in pest control firms, in the broad chemical and veterinary science related fields industries, in the fisheries industry, in forestry and in environmental and agricultural sectors. Graduates may continue with studies at a postgraduate level in Chemistry, Zoology or Ecology. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 12 of which are compulsory: CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) ZOL121Q : Animal diversity 1 (Zoology 121) ZOL122R : Animal diversity 2 (Zoology 122) ZOL123S : Animal diversity 3 (Zoology 123) ZOL124T : Practical (Zoology 124) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) CEM101A : End-user Computing (Information systems 101) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) plus 2 of the following modules: MAT103N : Linear algebra (Mathematics 103) BOT131W : Plant structure: cytology, morphology and anatomy (Botany 131) BOT132X : Biodiversity (Botany 132) BOT133Y : Plant diversity and environmental botany (Botany 133) BOT1343 : Practical (Botany 134) SECOND LEVEL This level comprises the following 8 compulsory modules: CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) CHE213V/CHE223X : Organic chemistry/practical work (Chemistry 213 and 223) CHE214W/CHE224Y : Analytical chemistry/practical work (Chemistry 214 and 224) ZOL221T : Comparative animal physiology (Zoology 221) ZOL222U : Ethology and Project (Zoology 222) ZOL223V : Cytogenetics and embryology (Zoology 223) ZOL224W : Practical (Zoology 224) THIRD LEVEL This level comprises the following 8 compulsory modules: CHE311W/CHE321Y : Inorganic chemistry/practical work (Chemistry 311 and 321) CHE312X/CHE3223 : Physical chemistry/practical work (Chemistry 312 and 322) CHE313Y/CHE3234 : Organic chemistry/practical work (Chemistry 313 and 323) CHE3143/CHE3245 : Analytical chemistry/practical work (Chemistry 314 and 324) ZOL321W : Ecology (Zoology 321) ZOL322X : Applied zoology 1 (Zoology 322) ZOL323Y : Applied zoology 2 (Zoology 323) ZOL3243 : Practical (Zoology 324) Physics stream (02089 NFI) Purpose: this stream will provide the student with education up to the BSc degree level in Physics, in particular in physical and mathematical modelling, and thereby equip students with the necessary theoretical background and applied competence to be self-employed, work in industry, be teachers or administrators, or to continue studies at a postgraduate level. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 11 of which are compulsory: PHY1038 : Practical work (Physics 103) PHY1049 : Modern physics (Physics 104) PHY105A : Mechanics (Physics 105) (or PHY101 with at least 65% prior to 2007) PHY106B : Electromagnetism and heat (Physics 106) (or PHY102 with at least 65% prior to 2007) MAT103N : Linear algebra (Mathematics 103) MAT111N : Precalculus Mathematics B (Mathematics 111) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) CHE102P : General chemistry B (Chemistry 102) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) Students who have passed MAT113 need not register for MAT111 and MAT112 but must register for 2 of the additional modules from the undermentioned list. and any 3 of the following additional modules of which the following are recommended: OPS101G : Introduction to the business world (Operations Research 101) STS1055 : Basic statistics (Statistics 105) PLS207B : Philosophy of science (Philosophy 207) CHE101N : General chemistry A (Chemistry 101) CHE103Q : Organic chemistry (Chemistry 103) CHE104R : Chemistry practical (Chemistry 104) COS111U : Introduction to programming 1 (Computer Science 111)

28 COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) APM114V : Mathematical modelling (Applied Mathematics 114) AST131F : General introduction to astronomy (Astronomy 131) AST134J : Spherical astronomy and Kepler orbits (Astronomy 134) SECOND LEVEL This level comprises the following 8 modules, the following 6 of which are compulsory: PHY2019 : Classical mechanics (Physics 201) PHY202A : Electricity and magnetism (Physics 202) PHY206E : Waves (Physics 206) MAT215V : Calculus in higher dimensions (Mathematics 215) MAT211R : Linear algebra (Mathematics 211) MAT216W : Differential equations (Mathematics 216) plus 2 of the following: PHY204C : Practical work (Physics 204) CHE211T/CHE221V : Inorganic chemistry/practical work (Chemistry 211 and 221) CHE212U/CHE222W : Physical chemistry/practical work (Chemistry 212 and 222) COS211X : Programming: data structures (Computer Science 211) COS2338 : Numerical methods 1 (Computer Science 233) AST251N : The structure and evolution of stars (Astronomy 251) THIRD LEVEL This level comprises the following 8 modules, the following 7 of which are compulsory: PHY302D : Quantum physics (Physics 302) PHY307J : Solid state physics (Physics 307) PHY308K : Atomic and nuclear physics (Physics 308) APM3123 : Mechanics and the calculus of variations (Applied Mathematics 312) PHY303E : Statistical physics (Physics 303) MAT305W : Complex analysis (Mathematics 305) MAT306X : Ordinary differential equations (Mathematics 306) and any 1 of the following modules: PHY306H : Practical work (Physics 306) COS332A : Numerical methods 2 (Computer Science 332) APM3134 : Special relativity and Riemannian geometry (Applied Mathematics 313) Physics and Computer Science stream (02089 NFC) Purpose: this stream aims to provide education up to the BSc degree in Physics with a strong background in Computer Science, focussing on the use of computer technology in investigations of physical phenomena, in particular physical and computer modelling, and thereby equip students with the necessary theoretical background and applied competence to be self-employed, to do computer intensive work at a research centre, in business or industry. It also prepares students for studies at postgraduate level in science where computers are extensively used. The curriculum comprises 30 modules. FIRST LEVEL This level comprises 14 modules, the following 12 of which are compulsory: PHY1038 : Practical work (Physics 103) PHY1049 : Modern physics (Physics 104) PHY105A : Mechanics (Physics 105) (or PHY101 with at least 65% prior to 2007) PHY106B : Electromagnetism and heat (Physics 106) (or PHY102 with at least 65% prior to 2007) COS111U : Introduction to programming 1 (Computer Science 111) COS112V : Introduction to programming 2 (Computer Science 112) COS113W : Computer systems: fundamental concepts (Computer Science 113) MAT112P : Calculus A (Mathematics 112) MAT113Q : Calculus B (Mathematics 113) MAT103N : Linear algebra (Mathematics 103) CSS101H : Comprehension skills for science (Comprehension Skills for Science 101) CEM101A : End-user Computing (Information systems 101) plus 2 of the following: OPS101G : Introduction to the business world (Operations Research 101) STS1055 : Basic statistics (Statistics 105) PLS207B : Philosophy of science (Philosophy 207) CHE101N : General chemistry A (Chemistry 101) CHE102P : General chemistry B (Chemistry 102) APM114V : Mathematical modelling (Applied Mathematics 114) AST131F : General introduction to astronomy (Astronomy 131) SECOND LEVEL This level comprises the following 8 modules, the following 6 of which are compulsory: PHY2019 : Classical mechanics (Physics 201) PHY202A : Electricity and magnetism (Physics 202) COS211X : Programming: data structures (Computer Science 211) COS2338 : Numerical methods 1 (Computer Science 233) MAT215V : Calculus in higher dimensions (Mathematics 215) MAT211R : Linear algebra (Mathematics 211) plus any 2 of the following modules: COS2144 : Programming: contemporary concepts (Computer Science 214) COS2213 : Computer organisation (Computer Science 221) MAT216W : Differential equations (Mathematics 216) PHY204C : Practical work (Physics 204) PHY206E : Waves (Physics 206) THIRD LEVEL This level comprises the following 8 modules, the following 4 of which are compulsory: PHY302D : Quantum physics (Physics 302) PHY303E : Statistical physics (Physics 303) COS3114 : Advanced programming (Computer Science 311) COS332A : Numerical methods 2 (Computer Science 332) plus any 4 of the following modules: COS3216 : Operating systems and architecture (Computer Science 321) MAT301S : Linear algebra (Mathematics 301) MAT305W : Complex analysis (Mathematics 305) PHY306H : Practical work (Physics 306) PHY307J : Solid state physics (Physics 307) PHY308K : Atomic and nuclear physics (Physics 308) APM3134 : Special relativity and Riemannian geometry (Applied Mathematics 313) APM3123 : Mechanics and the calculus of variations (Applied Mathematics 312) C h a p t e r 6 The National Certificate in Datametrics (Certificate code: 02402) The last year for new registrations for the current curriculum of the National Certificate in Datametrics is No new registrations will be allowed from Students have to complete the National Certificate by the end of

29 For whom? The National Certificate in Datametrics is intended inter alia for the following persons: (a) Researchers conducting opinion polls (b) Postgraduate students and researchers in economics, engineering, the natural and the social sciences who have to process quantitative data (c) Decision makers and persons preparing themselves for posts at middle and top level in administration or Management. A communication knowledge of the computer is a necessity for persons in these posts. (d) Accountants, cost and Management accountants, design engineers, quantity surveyors, city planners and building managers who use or could use the computer for technical work to an increasing extent (e) Computer operators and programmers who wish to obtain an official qualification (f) BSc and BCom students who already have modules or courses to their credit, as well as prospective students in these directions (g) Graduates wishing to qualify for admission to studies for the Honours BSc degree in a particular subject. See the examples under Rules for the National Certificate in Datametrics These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. Sc10 Admission (1) To be registered as a candidate for this certificate, a student must: (a) hold one of the following certificates: (i) a matriculation certificate issued by the Joint Matriculation Board; (ii) a senior or school leaving certificate with a matriculation exemption endorsement signed by the Secretary of the Joint Matriculation Board; (iii) a senior certificate with a matriculation or university admission endorsement issued by the South African Certification Council; (iv) a certificate of full or conditional exemption from the matriculation examination issued by the Joint Matriculation Board; or (v) qualify for an exemption certificate or conditional exemption certificate issued by the Matriculation Board of the Commi ee of University Principals. AND HAVE (b) satisfied the following prerequisite in respect of Mathematics: (i) obtained at least 40% (E symbol) in Mathematics HIGHER GRADE at matriculation level or (ii) obtained at least 50% (D symbol) in Mathematics STANDARD GRADE at matriculation level or (iii) passed Mathematics at matriculation level prior to the differentiation or (iv) passed an equivalent ** examination in Mathematics or (v) passed the Mathematics access module MAT011K see the subject chapter on Mathematics ** A student who has NOT passed Mathematics at matriculation level at the required level, and has NOT passed either Mathematics on at least O -level for the General Certificate of Education (GCE) or NTC V Mathematics (or NTC IV Mathematics with at least 50%), but has a similar qualification in Mathematics, must FIRST write to the Registrar or discuss the ma er in person with the staff of the Department of Student Admissions and Registrations (Tel ) to determine whether it will be acceptable. (c) (d) Students who have matriculation exemption as specified in Sc1(1)(a) but who do not satisfy the minimum requirements for mathematics as stated in Sc1(1)(b): (i) A student may register for the Mathematics access module (MAT011K) and a maximum of four of the undermentioned modules for non-degree purposes (NDP). As soon as MAT011 has been passed, the student may register for the National Certificate in Datametrics (concluding Rule Sc3(2) and (3)), and any of the undermentioned modules passed (excluding MAT011), will be recognised as credits forwards the certificate. Credit will be given for all FIVE first-level modules in Mathematics towards the National Certificate in Datametrics. AST131F General introduction to astronomy (Astronomy 131) BLG111H Basic Biology (Biology 111) BLG112J Biology of plants (Biology 112) BLG113K Biology of animals (Biology 113) BLG114L Practical (Biology 114) CHE111Q Introductory chemistry A (Chemistry 111) CHE112R Introductory chemistry B (Chemistry 112) COS111U Introduction to programming 1 (Computer Science 111) CSS101H Comprehension skills for science (Comprehension Skills for Science 101) GGH101Q Know your world: introduction to geography (Geography 101) GGH102R World issues: a geographical perspective (Geography 102) CEM101A End-user Computing (Information systems) INF1059 Introduction to Business Information Systems (Information Systems 105) PYC101Y Basic psychology (Psychology 101) PYC1023 Psychology in society (Psychology 102) (ii) Students will be granted credit for not more than six modules towards the National Certificate in Datametrics for modules or courses passed BEFORE the Mathematics admission requirements to the College have been met. Students who do not have matriculation exemption as stated in Sc1(1)(a) but who hold a senior or school leaving certificate: All such students (whether or not they have passed mathematics at the relevant level) must register for the access modules in both Mathematics and English. When both these examinations have been passed, the student may apply for a Senate discretionary conditional exemption certificate. If you hold a senior or school leaving certificate without a matriculation exemption, matriculation or university admission endorsement, you should contact the University in connection with conditional exemption (eg on grounds of age (+23)). If you hold a senior or school leaving certificate without a matriculation exemption, matriculation or university admission endorsement, and then began studies for an approved THREE- or FOUR-YEAR DIPLOMA (eg at a Teachers College, a Technikon, a University or a Nursing College that was affiliated to a South African university), you can normally apply to the University for a certificate of exemption on completion of the diploma. A certified copy of the relevant document under Sc10(1)(a) AND evidence that you have satisfied the Mathematics requirements in Sc10(1)(b)(i) (v) or (1)(c) must accompany your FIRST application for registration. If you do NOT hold one of the certificates under Sc10(1)(a)(i) (iv), you must apply to the University for a certificate of exemption or conditional exemption. Evidence that you qualify for such exemption must accompany your FIRST application for registration.

30 See G13 in Part 1 of the Calendar in connection with applications for a certificate of exemption, conditional exemption and exemption by virtue of qualifications obtained in other countries. (2) A student who has completed a BSc degree or another degree in Science or Engineering may not select subjects for the National Certificate in Datametrics which were included in the degree curriculum without special permission. His/Her application must be justified in writing. It must be accompanied by a statement of all the courses he/she has already passed, unless he/she completed the previous qualification(s) at Unisa. (3) Students for the National Certificate in Datametrics may not be registered concurrently for any other qualification at this or at any other university. Sc11 Duration of study and number of study units per year (1) Students may not be registered for more than five academic years (years of registration) towards the cerficate. It must be completed within this period of time. (2) ON FIRST REGISTRATION and on RE-ENROLMENT at this University the number of study units for which a student may register is determined by Number of study units per year in Section D3 in Part 1 of the Calendar. One course is regarded as the equivalent of four modules for the purpose of this rule. Sc12 Subjects The subjects in which modules for the certificate may be selected, are as follows: Computer Science/Information Science (COS and INF) Mathematics (MAT) Sc13 Operations Research (OPS) Physics (PHY) Statistics (STA) Composition and completion of the curriculum 1 Students registering for semester modules MUST refer to the Information Brochure in connection with semester registrations. See the model curricula under 6.4. (1) The curriculum comprises TEN MODULES, and must be composed as follows: (a) at least EIGHT modules must be selected from the list of core modules in 6.4. Note that at least three of these eight modules must be on second and/or third level (a thirdlevel module is no longer compulsory); (b) not more than two non-core modules (or one course on first level) may be selected. (c) (d) Alternatively, a maximum of one course on first-year level (the equivalent of two modules) may be selected in a subject from the curricula of first Bachelor s degrees of other Colleges. If a student is exempted from one or more modules from a completed B-degree (the maximum is five), the modules he/she must still pass to complete the certificate must include at least three on second and/or third level. In addition to the TEN modules that must be selected for the diploma curriculum in accordance with Sc13(1)(a) (c), a student may register for a maximum of FOUR modules for non-certificate purposes concurrently with those for the certificate. Such modules may NOT be exchanged for other modules or courses. (A er the student has satisfied the requirements for the certificate, a final decision can be made (if necessary) in consultation with the Department of Student Admissions and Registrations as to which modules will be recognized for certificate and for non-certificate purposes.) 2 Courses or modules passed by a graduate for non-degree purposes in accordance with the exception under General Rule G19 in Part 1 of the Calendar will NOT be credited towards the BSc degree or the National Certificate in Datametrics at a later date. (2) Modules (or courses) for each year must be selected in such a way that the examination dates do not clash. (i) (ii) Sc14 Exemption A student may be exempted from a maximum of FIVE modules by virtue of degree courses or modules already passed towards a completed BSc degree. Note that modules or courses for which credit has already been obtained for a completed or uncompleted degree or university diploma may not be repeated for the National Certificate in Datametrics. If the student qualifies for exemption from second-level modules, the compulsory three modules on 2nd and/or 3rd level for the National Certificate in Datametrics must be passed at Unisa. A student may, on grounds of an uncompleted BSc-degree at Unisa, be granted credit from a maximum of eight core modules and two non-core modules as required under 6.4, towards a National Certificate in Datametrics. Subject to Sc11(1), such credits will be transferred from an uncompleted BSc degree in order for the student to complete the National Certificate in Datametrics. On registration for the BSc degree a er completion of the National Certificate in Datametrics, exemption will be granted towards the BSc degree from all courses passed for the certificate see Sc15 Pass with distinction A candidate shall be awarded the certificate with distinction if he/she obtains an average of at least 75% in three core modules on second (or third) level. Modules from which exemption has been granted and those passed for non-degree purposes (NDP) in accordance with the provisions of Sc13(1)(d) above are NOT taken into consideration for this purpose without the approval of Senate. See Sc6 in connection with the ordinary pass-mark and subminima. 6.3 Core modules for the National Certificate in Datametrics See under the relevant subject in Part 2 of the Calendar for the prerequisites and co-requisites for each module. A ention is also drawn to the important general advice under the relevant subjects. See the model curricula under 6.4. Credit for the Certificate will be granted for five MAT modules on first level. Note that practical work is required for specific modules in Computer Science and Information systems (COS/INF). The list of core modules from which at least EIGHT must be selected for the National Certificate in Datametrics is as follows: 29

31 (A) 30 FIRST-LEVEL MODULES COS101S MAT110M OPS101G PHY1026 STA121M COS111U MAT111N OPS102H or STA122N COS112V MAT101L PHY106B STA123P COS113W MAT102M STA124Q COS114X MAT103N or INF1014 MAT112P STS1113 CEM101A MAT113Q STS1124 INF1048 or INF1059 STS1055 INF1208 (B) SECOND-LEVEL MODULES COS201V MAT216W OPS201K STA202M COS211X OPS202L STA203N COS212Y OPS205P STA204P COS2144 STA206R COS2213 STA208T COS2269 COS2338 COS261C INF206D or INF203A INF207E or INF204B INF205C (MAT216W is available only if COS332A is included in the curriculum.) (C) THIRD-LEVEL MODULES COS301Y OPS301N PHY305G STA302Q COS3114 OPS302P PHY309L STA303R COS3216 OPS303Q STA305T COS332A OPS304R STA306U COS340A OPS305S STA312S COS351D OPS306T COS361F INF303D INF304E INF305F INF307H INF308J INF320E 6.4 Model Curricula for the National Certificate in Datametrics Subject to Rules Sc10 Sc15 and the prerequisites and co-requisites for each module, the student may compile his/her curriculum to suit his/ her own circumstances, interests and needs. A few model curricula for specific purposes are nevertheless presented below to serve as a guide for the student COMPUTER SCIENCE AND INFORMATION SYSTEMS If you wish to obtain a certificate with Computer Science or Information Systems, you could consider one of the following curricula: (A) COMPUTER SCIENCE (ARTIFICIAL INTELLIGENCE) First year Second year Third year COS101S COS211X COS351D No longer offered This module does not meet the requirements for admission to second and third-level modules in Statistics. COS111U COS112V COS113W COS114X CEM101A (B) First year COS101S COS111U COS112V COS113W COS114X CEM101A (C) COS2144 COS261C COMPUTER SCIENCE (GENERAL) Second year COS211X COS2144 COS2213 COS2269 COMPUTER SCIENCE (THEORETICAL) First year Second year Third year COS101S COS201V COS301Y COS111U COS211X COS112V COS2144 COS113W COS114X CEM101A (D) COMPUTER SCIENCE (SOFTWARE ENGINEERING) First year Second year Third year COS111U COS2144 INF303D COS112V INF206D INF305F COS113W INF207E INF1059 CEM101A Your curriculum must be chosen in accordance with Sc13 to give a total of 10 modules. (E) INFORMATION SYSTEMS (HUMAN-COMPUTER INTERACTION) The curriculum suggested in this section is aimed at students who wish to specialise in the design and/or development of interactive systems. First year Second year Third year CEM101A INF206D INF303D INF1059 INF207E INF305F INF1208 COS2269 INF320E COS114X (F) COMPUTER SCIENCE (HUMAN-COMPUTER INTERACTION) First year Second year Third year COS111U COS211X INF320E COS112V COS2144 COS3114* COS113W COS114X INF1208 CEM101A (G) INFORMATION SYSTEMS (GENERAL) The curriculum suggested in this section is aimed at students who wish to specialise in Information Systems. First year Second year Third year CEM101A INF206D INF303D COS114X INF207E INF305F INF1059 COS2269 Any 1 of the following: INF1208 INF307H, INF308J, INF320E * Can be replaced by INF206D

32 (H) COMPUTER SCIENCE (SCIENTIFIC PROGRAMMING) The following curricula may be useful if you plan to use a computer for scientific and technical computation: First year COS101S COS111U COS112V COS113W MAT103N MAT111N MAT112P CEM101A Second year COS211X COS2144 COS2338 One of these modules must be taken for non-certificate purposes, since credit is granted for only ten modules for the certificate. (I) FOUNDATION COMPUTING MODULES The curriculum suggested in this section is aimed at students who have li le knowledge of computers or who have less than 50% (D symbol) in Mathematics HIGHER GRADE at matriculation level. The modules to be taken in the following sequence, are: First year Second year Third year INF1059 COS113W COS2269 CEM101A COS114X INF206D COS111U INF1208 INF207E CSS101H (non-core module) (J) GENERAL (FAST TRACK) It is possible to complete the National Certificate in two years. You can complete five to seven modules in the first year of study, and the remaining modules in the second. If you plan to upgrade the National Certificate to a BSc degree with majors in Computer Science and Information Systems later on, you may consider the following curriculum: First year CEM101A INF1059 COS101S COS111U COS112V COS113W COS114X Second year any three of the following: INF206D INF207E COS201V COS211X COS2144 COS2213 COS QUALIFYING FOR POSTGRADUATE STUDIES IN COMPUTER SCIENCE OR INFORMATION SYSTEMS If you have completed a Bachelor s degree without Computer Science or Information Systems as a major subject, you may be admi ed to studies for the Honours BSc degree in the subject concerned, provided you satisfy the further requirement of three third-level modules from COS or INF (or the equivalent) see Computer Science and Information Systems for full details on admission requirements. COS301 is strongly recommended for all students wishing to continue with postgraduate studies in Computer Science. Where applicable, you could obtain credit for the required modules by completing a National Certificate in Datametrics, provided you can satisfy the provisions of Sc10(2). One of the following curricula could be considered for this purpose: (A) PREPARING FOR THE HONOURS BSC DEGREE IN COMPUTER SCIENCE First year Second year Third year COS101S COS201V COS301Y COS111U COS211X and 2 of the following: COS112V COS2144 COS3114 COS113W COS2213 or COS3216 CEM101A COS2338 or COS332A COS261C or COS2269 COS351D INF303D One or more of these modules must be taken for non-certificate purposes, since credit is granted for only ten modules for the National Certificate. Students who wish to include COS233 and/or COS332 should note that there are certain Mathematics prerequisites for these modules. (B) PREPARING FOR THE HONOURS BSC DEGREE IN INFORMATION SYSTEMS First year Second year Third year (CEM101A INF206D INF303D INF1059 INF207E INF305F COS114X COS2269 and at least 1 of the following: INF1208) or INF320E or (CEM101A INF307H COS111U INF308J COS112V COS113W INF1208) One or more of these modules must be taken for non-certificate purposes, since credit is granted for only 10 modules for the certificate COMMERCE Students registering for semester modules MUST refer to the Information Brochure in connection with semester registrations. If students wish to complete a BCom, BCompt, BBA or BAdmin degree a er having completed the National Certificate in Datametrics, they can obtain various credits for the degree concerned by taking the curriculum below (see also 6.5). Accounting I, Economics I, Business Economics I and Industrial Psychology I comprise two modules. Only ONE of these subjects may be taken for the certificate. PREPARING FOR BCOM, BCOMPT OR BADMIN WITH STATISTICS First year Second year Third year STS1113 STA203N STA311R STS1124 STA206R STA312S and 2 first-level and 1 of: modules from 1 STA305T of the following STA306U subjects: Economics Accounting Business Economics Industrial Psychology plus 1 other module to be chosen according to Sc OPERATIONS RESEARCH Students who are more interested in Operations Research can consider the following curriculum: First level Second level Third level OPS101G OPS201K Any 4 of the following: OPS102H OPS202L OPS301N QMS101D (or any 2 OPS205P OPS302P of MAT101, 102, 112, OPS303Q 113, 103) OPS304R OPS306T QUALIFYING FOR POSTGRADUATE STUDIES IN OPERATIONS RESEARCH Graduates with credit for (or exemption from) first-level modules in Statistics and Mathematics (eg Industrial Engineers) can consider the following curriculum. In all cases prospective students should consult the Head of the Department of Decision Sciences prior to registration. It is sometimes possible to satisfy the prerequisites for admission to postgraduate studies in one year: 31

33 First year OPS101G OPS102H OPS201K OPS202L OPS205P 32 Second year Any 5 of the following: OPS301N OPS302P OPS303Q OPS304R OPS305S OPS306T OPERATIONS RESEARCH FOR PRODUCTION AND QUALITY MANAGEMENT Students who are interested in production and quality management can consider the following curriculum: First level Second level Third level OPS101G OPS201K OPS301N OPS102H OPS202L STA306U QMS101D (or any 2 STA206R of MAT101, 102, 112, 113, 103) STS1113 STS1124 One of these modules must be taken for non-certificate purposes since credit is granted for only 10 modules for the certificate OPERATIONS RESEARCH FOR FINANCIAL MODELLING Students who are interested in financial and risk modelling can consider the following curriculum: First level Second level Third level OPS101G OPS201K OPS305S OPS102H OPS202L STS1113 OPS205P STS1124 STA202M QMS101D (or any 2 of MAT101, 102, 112, 113 and 103) OPERATIONS RESEARCH FOR SIMULATION Students who are interested in simulation can consider the following curriculum: First level Second level Third level OPS101G OPS201K OPS303Q OPS102H OPS202L STS1113 STA202M STS1124 QMS101D (or any 2 of MAT101, 102, 112, 113 and 103) COS111U or COS114X STATISTICS A student interested in the statistical interpretation and processing of data is advised to compile his/her curriculum within the following framework: First year STA121M STA122N STA123P STA124Q MAT111N MAT101L Second year STA203N STA204P STA206R STA306U COS111U COS112V Two of these modules must be taken for non-certificate purposes, since credit is granted for only 10 modules for the certificate QUALIFYING FOR POSTGRADUATE STUDIES IN STATISTICS A student who has completed a Bachelor s degree without Statistics as a major subject, and who wishes to qualify for admission to studies for the Honours BSc degree in Statistics, is advised to study the structure of compulsory modules for a major subject combination in Part 2 of the Calendar: Statistics for the College of Science, Engineering and Technology STATISTICS FOR THE SOCIAL SCIENCES Social scientists who plan research experiments and analyse the results can greatly increase their research effectiveness by obtaining a certificate compiled as follows: First year Second year Third year STA121M STA124Q STA305T STA122N STA203N STA306U STA123P STA204P Psychology I or STA206R Industrial Psychology I ECONOMETRIC STATISTICS Students who are interested in Econometric Statistics are advised to complete the following curriculum: First year Second year Third year STA121M STA124Q STA312S STA122N STA203N STA206R STA123P STA204P COS111U COS112V STATISTICS FOR INDUSTRIAL APPLICATIONS Students who are interested in quality control and other industrial applications are advised to complete the following curriculum: First year Second year STA121M STA202M STA122N STA203N STA123P STA204P STA124Q STA306U COS111U COS112V (or MAT111N and MAT101L/MAT112P) 6.5 Recognition for Degree studies BSc A student who has completed the National Certificate in Datametrics with any of the above curricula, may normally apply for exemption from all ten modules as part of his/her curriculum for a BSc degree but, if he/she has already completed a BSc or another degree in Science or Engineering, he/she is referred to Sc1(2) BCom, BCompt OR BAdmin Students who wish to continue with studies towards one of these degrees a er completion of the National Certificate in Datametrics, may normally apply for exemption from one or more of the following, where applicable: (a) (b) (c) (d) (e) (f) Information Systems I if (COS113 or INF105 or INF101 (prior to 1997)) and (INF103 or INF120) were included. Information Systems II if (INF203 or INF206), (INF204 or INF207), (INF205 or INF202 (prior to 1998)) were included. Information Systems III if INF303, INF305, INF306 were included prior to Herea er the following five modules will be required: INF303, INF305, INF306, INF307, and INF308. Accounting I or Economics I or Business Economics I or Business Management I in its own right. Industrial Psychology I if Psychology I or Industrial Psychology I was included. Mathematics I if MAT101, 102, 103 and 111 were included.

34 (g) (h) (i) Quantitative Management (first-level modules): QMG101 if any three modules in Mathematics (MAT) were included. QMG102 if OPS102 was included. QMS101 if any second-level modules in Mathematics (MAT) and any module in Computer Science (COS) and any module in Information Systems (INF) were included. QMS102 if OPS102 was included. QMI101 if any module in Statistics (STA) and Mathematics (MAT) and OPS102 were included. Quantitative Management (second-level modules): QMG201 if OPS201 was included. QMG202 if OPS202 was included. QMG205 if OPS205 was included. QMS201 if OPS201 was included. QMS202 if OPS202 and STA101 and STA202 were included. QMS205 if OPS205 was included. Quantitative Management (third-level modules): QMG301 if OPS301 was included. QMG302 if OPS302 was included. QMG303 if OPS303 was included. QMG304 if OPS304 was included. QMG305 if OPS305 was included. QMS301 if OPS301 was included. QMS302 if OPS302 was included. QMS303 if OPS303 and STA202 and STA203 and INF205 were included. QMS304 if OPS304 was included. QMS305 if OPS305 and STA202 and STA203 were included. Chemistry (CHE) Geography (GGH) Geology (GEL) Operations Research (OPS) Physiology (FIS) Computer Science/Information Systems (COS/INF) Microbiology (MIB) Physics (PHY) Zoology (ZOL) 7.2 Exemption from practical examinations/modules at other universities or institutions Exemption from the practical work and examination in a particular practical module cannot be considered. NOTE: These possible exemptions are not necessarily valid in the reverse order, especially regarding the first-level modules and the QMG-modules. C h a p t e r 7 Practical work and practical examinations 7.1 General information MODULES FOR WHICH PRACTICAL WORK IS PRESCRIBED Practical work for the subjects listed below is normally prescribed only for specified modules, and students who register for such modules are required to do practical work during the year as indicated in the relevant sections below. See also the prerequisites and co-requisites under the relevant subject. Note that in many cases, depending on the subject, the practical work and the practical examinations must be done in PRETORIA or POTCHEFSTROOM at specified times. Prospective students must, therefore, be in a position to make the necessary leave and travel arrangements. Information about accommodation in Potchefstroom and the cost thereof will be supplied to the students concerned on registration (or soon therea er). The cancellation of a student s registration for modules with a practical component CANNOT be considered on grounds of his/her being unable to comply with the requirements in respect of the practical work and/or the practical examinations. Subject (and subject code) Astronomy (AST) Biology (BLG) Subject (and subject code) Biochemistry (BCH) Botany (BOT) 33

35 APPLICATION FOR REGISTRATIONS FOR A SECOND BSc DEGREE Name:... Student number: Particulars of all previous registrations at Unisa and other universities. Year University Degree/Diploma If completed state year PROPOSED CURRICULUM FOR THE BSc DEGREE Important 1. Refer to Chapter 3 on how to compile a BSc curriculum. 2. Refer to Chapter 3 for the major subject combinations. 3. Refer to the relevant subject chapters with regard to prerequisites and/or co-requisite. Name:... Student number:... Proposed major subject(s) A ach a complete statement of courses passed or an academic record. If this is not available, state all the courses passed towards all your previous qualifications. 3. Justify your application in full. 4. Proposed curriculum A First-level modules/courses B Second-level modules/courses A Third-level modules/courses (Minimum of 8 modules) B Second-level modules/courses (Minimum of 8 modules) C First-level modules/courses (Minimum of 14 modules) Total of 30 modules C Third-level modules/courses Proposed major subjects Signature:... Date:... Signature:... Date:... FOR OFFICE USE ONLY RECOMMENDATION 34

36 SECTION 3: RULES FOR FORMATIVE AND PROFESSIONAL POSTGRADUATE QUALIFICATIONS M and D degrees can also be obtained in African Renaissance Studies. Students interested in this field should contact the Centre for African Renaissance Studies (Tel or ). C h a p t e r 1 Rules for the Degree of Honours Bachelor of Administration These rules should be read in conjunction with the general rules and the general information in Part 1 of the Calendar. See General Rules PG2 to PG8 in connection with duration of study, re-registration, etc. PSc31 Curriculum and other requirements The requirements for the Honours BAdmin degree in Statistics are the same as those for the Honours BCom degree. C h a p t e r 2 Rules for the Degree of Honours Bachelor of Arts These rules should be read in conjunction with the general rules and the general information in Part 1 of the Calendar. See General Rules PG2 to PG8 regarding duration of study, reregistration, etc. PSc44 Curriculum and other requirements The approved papers, curricula and, where applicable, the combination of papers and particular admission and/or language requirements, appear below. PSc28 Admission Statistics (Degree code: 05061) (1) Students must: (a) hold the BAdmin degree and have passed the final course in the subject in which they wish to proceed; or (b) be in possession of another degree and have passed at least six BAdmin courses, including at least the final course in the subject in which they wish to proceed, Statistics I (or STS101X and STS102Y). (2) Students with B-degrees older than 10 years may also apply for admission to Honours and such requests could be handled in two possible ways: (a) students must repeat the major subject in which they wish to do their Honours or (b) students must apply to the Head of a Department by submi ing a CV, providing evidence including references that they have been employed in the selected subject direction during the past 10 years (or longer), thus having kept abreast with developments in the field. These CVs will then have to be evaluated by the Head of Department for approval for registration. PSc29 Subjects This degree may be conferred in Statistics (Degree code: 04944) in this college. CURRICULUM The curriculum comprises ten fourth-level modules as listed below. With the approval of the Heads of the Departments concerned, not more than two of the modules may be replaced by fourth-level modules or an Honours paper from a subject in which the student has sufficient background knowledge. The syllabuses, further particulars on the admission requirements, choice of modules, etc appear in the Departmental brochure on postgraduate studies which is obtainable free of charge from the Registrar on request. The modules are as follows: STA401S : Matrix Methods in Statistics STA414X : Statistical Techniques A: Functional methods STA415Y : Statistical Techniques B: Structural methods (Corequisite: STA401) STA4163 : Nonparametric regression STA4174 : Survival analysis STA431Y : Linear Model A (Co-requisite: STA401) STA421W : Multivariate Distribution Theory (Co-requisite: STA401) STA4334 : Regression A (Co-requisite: STA431) STA4356 : Time Series (Co-requisite: STA401) STA4528 : Sampling Techniques PSc30 Pass with distinction Candidates shall be awarded the degree with distinction if they obtain an average of at least 75% for the required papers for the degree. (i) (ii) (iii) If module X is a co-requisite for module Y, and students wish to enrol for module Y but have not yet obtained credit for module X, they shall take modules X and Y simultaneously. A student who has not as yet passed any modules must register for at least two modules. Only in highly exceptional circumstances will a student be allowed to register for more than six modules in any year of study. Such a student must obtain the wri en permission of the Head of the Department beforehand 35

37 C h a p t e r 3 Rules for the Degree Honours Bachelor of Commerce These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. See General Rules PG2 to PG8 regarding duration of study, reregistration, requirements for dissertation, etc. PSc32 Admission (1) Students must: (a) hold the BCom or BCompt degree or another approved degree in the Economic and Management Sciences and have passed the final course in the subject in which they wish to proceed; or (b) be in possession of another degree and have passed at least five BCom courses, including at least Economics I (or ECS1016 and ECS1028), Business Management I (Business Economics I prior to 1996) (or M101D and M102E) and Accounting I (or ACN101M and ACN102N) or Accounting IA (or ACN101M and ACN103P); and have passed the final course in the subject in which they wish to proceed; or (c) have obtained the Certificate in the Theory of Accountancy at a recognised university, and have qualified for or be in possession of the CA(SA) and have passed Economics I (or ECS1016 and ECS1028), Business Management I (Business Economics I prior to 1996) (or M101D and M102E) and the final course in the subject in which they wish to proceed. (2) Students with B-degrees older than 10 years may also apply for admission to Honours and such requests could be handled in two possible ways: (a) students must repeat the major subject in which they wish to do their Honours or (b) students must apply to the Head of a Department by submi ing a CV, providing evidence including references that they have been employed in the selected subject direction during the past 10 years (or longer), thus having kept abreast with developments in the field. These CVs will then have to be evaluated by the Head of Department for approval for registration. PREREQUISITES Business Informatics (Degree code: 05282) In order to be admi ed, a student must: (a) have passed Informatics III (or an equivalent course) with an average of at least 60%; and (b) qualify for admission to enrol for the Honours level courses/ modules in the subject(s) chosen from the list of subjects below. CURRICULUM The curriculum consists of ten modules compiled as follows: INF450P : Information Systems Development: Methodologies, Techniques and Tools INF417N : So ware Engineering INF431L : Information security INF418P : Database design Any two courses (the equivalent of four modules, i.e. each course carries the credits of two modules) at Honours level chosen from the following list of subjects: Accounting Accounting (Local Government) Auditing Internal Auditing Business Management Economics Industrial Psychology Quantitative Management Transport Economics Logistics Any two modules chosen from the following: INF412H : Project Module INF462T : Research for Computing (Information Systems) or 2 of the following modules INF420H : Human-Computer Interaction INF425N : So ware Project Management INF462T : Research for Computing Honours modules in Information Systems assume that students have experience in programming. If you lack programming experience, we highly recommend that you register for either COS114X and/or (COS111U and COS112V) for non-degree purposes. Access to the Internet is a requirement for students registering for an Honours degree in Business Informatics. Access to the Internet can be cost-effectively obtained through Internet Cafes if a student does not have access to the Internet at work or at home. PSc33 Pass with distinction Candidates shall be awarded the degree with distinction if they obtain an average of at least 75% for the required papers for the degree. CURRICULUM Statistics (Degree code: 04103) PSc34 Curriculum and other requirements The approved papers, curricula and, where applicable, the combination of papers and/or particular admission requirements appear below. The curriculum comprises ten fourth-level modules as listed below. With the approval of the Heads of the Departments concerned, not more than two of the modules may be replaced by fourth-level modules or an Honours paper from a subject in which the student has sufficient background knowledge. The syllabuses, further particulars on the admission requirements, choice of modules, etc appear in the Departmental brochure on postgraduate studies which is obtainable free of charge from the Registrar on request. 36

38 The modules are as follows: (i) (ii) (iii) STA401S : Matrix Methods in Statistics STA414X : Statistical Techniques A: Functional methods STA415Y : Statistical Techniques B: Structural methods (Corequisite: STA401) STA4163 : Nonparametric regression STA4174 : Survival analysis STA431Y : Linear Model A (Co-requisite: STA401) STA421W : Multivariate Distribution Theory (Co-requisite: STA401) STA4334 : Regression A (Co-requisite: STA431) STA4356 : Time Series (Co-requisite: STA401) STA4528 : Sampling Techniques If module X is a co-requisite for module Y, and students wish to enrol for module Y but have not yet obtained credit for module X, they shall take modules X and Y simultaneously. A student who has not as yet passed any modules must register for at least two modules. Only in highly exceptional circumstances will a student be allowed to register for more than six modules in any year of study. Such a student must obtain the wri en permission of the Head of the Department beforehand. C h a p t e r 4 Rules for the Degree of Honours Bachelor of Science These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. See General Rules PG2 to PG8 regarding the number of modules for which a student must register, duration of study, re-registration, etc. PSc3 Admission To be admi ed, students must hold a Bachelor s degree or an equivalent qualification and satisfy Senate as to their proficiency in the subject concerned. PSc4 Definitions (1) Study units in the subjects listed in PSc5 below are known as MODULES except in the case of Geography and Psychology which are offered in the form of PAPERS. (2) If Module A is a PREREQUISITE for Module B, students shall have obtained credit for Module A before they enrol for Module B. (3) If Module A is a CO-REQUISITE for Module B, and students wish to enrol for Module B but have not yet obtained credit for Module A, they must register for Modules A and B concurrently. PSc5 Subjects The degree may be conferred in the following subjects: Applied Mathematics (Degree code: 0457X) Astronomy (Degree code: 04561) Chemistry (Degree code: 04472) Computer Science (Degree code: 04545) Environmental Management See Part 3 of the Calendar Geography See Part 3 of the Calendar Information Systems (Degree code: 04693) Mathematics(Degree code: 04588) Operations Research (Degree code: 0460X) Physics (Degree code: 04502) Statistics (Degree code: 04596) PSc6 Curriculum and examination (1) The curricula for the subjects mentioned above appear under Rule PSc8. (2) All the papers/modules are not necessarily offered each year and the Head of the Department must be consulted beforehand. (3) The theoretical examination in each module with a theoretical component consists of one two-hour, three-hour or four-hour paper. (4) In the College of Science, Engineering and Technology, and subject to the approval of the heads of the departments concerned, students may include not more than two Honours papers or four fourth-level modules from another subject(s) in their Honours curricula if the departmental heads are of the opinion that the students have sufficient background knowledge to be able to offer such papers/modules and it is in the best interest of the students. Further particulars regarding the admission requirements and curricula appear in the departmental brochures on postgraduate studies which are available free of charge on request from the Registrar. PSc7 Pass, retaining of credit and pass with distinction (1) To pass a paper or a module, a candidate shall obtain at least 50% in it. (2) To be awarded the degree with distinction, a candidate shall obtain an average of at least 75% in the minimum number of prescribed papers or modules on fourth-level. PSc8 List of modules and papers The complete list of approved modules and papers, with the exception of those for Computer Science and Information Systems, and any special requirements are indicated below. The approved modules for Computer Science and Information Systems appear in the departmental brochure on postgraduate studies. The codes, comprising seven characters, which appear in the first column or in brackets a er the names of papers, must be indicated on the registration form. Note that the seventh character has been omi ed in the other columns of the tables below and in cross-references to facilitate the reading of these tables. PREREQUISITES Applied Mathematics (Degree code: 0457X) In order to be admi ed, a student must have passed either: (a) Applied Mathematics III (MAT301W); or (b) four third-level modules in Applied Mathematics; or (c) three third-level modules in Applied Mathematics and two third-level modules in Mathematics; or (d) the equivalent of (a), (b) or (c) above. 37

39 CURRICULUM The curriculum comprises ten modules on approved topics, particulars of which appear in the Departmental brochure on postgraduate studies which is obtainable from the Registrar free of charge on request. PREREQUISITES Astronomy (Degree code: 04561) In order to be admi ed, a student must have a BSc degree with a major in Astronomy, Physics or Applied Mathematics. Students should consult with the Head of the Astronomy section in the Department of Mathematical Sciences before registering. CURRICULUM The curriculum comprises ten modules on approved topics, particulars of which appear in the departmental brochure on postgraduate studies which is obtainable from the Registrar free of charge on request. ADMISSION REQUIREMENTS Chemistry (Degree code: 04472) (i) (ii) CHE4409 consists of practical work which is designed to include the four branches of Chemistry, namely Analytical, Inorganic, Organic and Physical. Approximately two weeks (±80 hours) of practical work are required for each discipline. A student must have successfully completed the theory module(s) (as specified in the Postgraduate brochure) before he/she is permi ed to complete the experimental portion that applies to the specific module(s). Alternatively if a student wishes to complete the practical component in tandem with the theory module(s), then a pass ( 50%) in the first assignment for the module(s) in question must be obtained.) All practical work must be carried out in approved laboratories, particulars of which must be submi ed by the student to the Department of Chemistry. Details about the practical work are obtainable from the Department of Chemistry on request. Students who have no or inadequate practical facilities at their disposal may contact the responsible lecturers in the Department in order to arrange for practical work to be carried out in the Department s laboratories in Pretoria. CHE450B consists of a mini research project conducted under the supervision of a chemistry staff member. The research project must be carried out at the university or at an approved external laboratory. The proposal should be approved by the executive commi ee and upon completion of the project, a comprehensive report be submi ed to the Chemistry Department for evaluation and credit a er approval by the supervisor. To be admi ed, students must: (a) have passed CHE311/321 CHE314/324 or Chemistry III or an equivalent course with an average of 60% or more within the past five years; and (b) have passed MAT112, MAT113 or an equivalent course. Students whose average for Chemistry III or equivalent is between 55% and 59% and fulfilled the other admission requirements stipulated above may be granted provisional admission taking into consideration the experiences of the candidate in his profession. Such students may be allowed to register for a maximum of three honours modules in consultation with the Head of Department of Chemistry. Students may not register for any other honours modules in the following year unless he/she has passed the three stipulated honours modules. CURRICULUM The curriculum comprises ten fourth-level modules. The nine modules from List A are compulsory and the remaining one module must be selected from List B. In the current syllabus the modules are available as core and elective modules. A student is advised not to register for a module in List B unless some of the modules in List A have been passed or are taken concurrently (see Postgraduate Brochure for examples). LIST A CHE441A : Physical Inorganic Chemistry CHE442B : Advanced Physical Chemistry CHE443C : Synthetic Organic Chemistry CHE444D : Instrumental Analysis CHE445E : Quantum Chemistry CHE446F : Advanced Organic Spectroscopy CHE447G : Structural Chemistry CHE448H : Chemical Analysis CHE449J : Applied Chemistry LIST B CHE4409 : Chemistry Honours Practical CHE450B : Chemistry Honours Project TRANSITIONAL ARRANGEMENTS Students who have passed modules under the old curriculum retain credits for the modules passed. Each student will be advised on an individual basis which modules to register for. The current elective modules, CHE471, CHE472 and CHE473 will be available to students where appropriate. Computer Science (Degree code: 04545) At Honours level, Computer Science includes topics such as logic and the theory of computing, analysis of algorithms, formal languages and programming languages, computer architecture, networks, real-time programming and aspects of operating systems, artificial intelligence, numerical methods and graphics. A limited choice of modules from Information Systems is also allowed. The module on Research for Computing is compulsory. It is also possible to do a practical or research project, which carries the weight of one module. CURRICULUM The curriculum consists of at least ten fourth-level modules. The list of approved modules appears in the School of Computing brochure on postgraduate studies in Computer Science and Information Systems which is available free of charge from the Registrar. The brochure also contains further details on admission requirements and advice on the compilation of a curriculum. Data mining Degree code: (05622) This degree is multidisciplinary and is presented jointly by the Departments of Decision Sciences and Statistics and the School of Computing. ADMISSION REQUIREMENTS In order to be admi ed, a student must: (a) have majored in Statistics with an average of at least 60%; (b) have passed four third level modules in Operations Research with an average of at least 60%; (c) be proficient in a scientific programming language; 38

40 (d) (e) have a sound knowledge of data structures (at least on second level the equivalent of COS211X); have a sound working knowledge of databases (at least at third level the equivalent of INF303D). (c) program (such as Excel, Lotus, Qua ropro, Open Office or Gnumeric); and have access to a computer and printer with the so ware necessary for (b). CURRICULUM The curriculum comprises ten modules: HONDANE : Decision analysis HONNNSH : Neural networks HONPR1B : Project 1 HONPR2C : Project 2 STA401S : Matrix methods in statistics STA414X : Statistical techniques A: Functional methods STA415Y : Statistical techniques B: Structural methods STA4163 : Nonparametric regression COS408D : Data structures and algorithms INF418P : Databases: advanced concepts Only in exceptional cases will a student be allowed to register for more than six modules in a study year. Such a student must obtain the wri en permission of one of the Heads of Departments. Information Systems (Degree code: 04693) The subject Information Systems consists mainly of aspects of so ware engineering. Topics such as project management, system specification, so ware design, system implementation and testing, data base design and consideration of the information system environment such as distributed processing, operating systems and networks are discussed in the various modules. A limited choice of modules from Computer Science is also allowed. The module on Research for Computing is compulsory. It is also possible to do a practical or research project, which carries the weight of one module. CURRICULUM The curriculum consists of at least ten fourth-level modules. The list of approved modules can be found in the School of Computing brochure on postgraduate studies in Computer Science and Information Systems which is available free of charge from the Registrar. The brochure also contains further details on admission requirements and advice on the compilation of a curriculum. PREREQUISITES Mathematics (Degree code: 04588) In order to be admi ed, a student must have passed Mathematics III or four third-level modules in Mathematics or three third-level modules in Mathematics and two third-level modules in Applied Mathematics. CURRICULUM The curriculum comprises ten modules on approved topics, particulars of which appear in the Departmental brochure on postgraduate studies which is obtainable from the Registrar free of charge on request. ADMISSION REQUIREMENTS Operations Research (Degree code: 0460X) In order to be admi ed, a student must: (a) have passed Operations Research III (or an equivalent course) with an average of at least 60%; (b) be proficient in a scientific programming language (such as Fortran, Pascal, Delphi, C or C++) and the use of a spreadsheet CURRICULUM Students who were previously registered for this qualification must note that HONINV4 is no longer part of this curriculum. Students who have passed this paper will retain credit for it. The curriculum comprises ten papers, five of which are compulsory. A maximum of four elective papers may be replaced with Honours papers in related subjects, subject to the approval of the heads of departments concerned. HONLINR : Linear programming HONOPTR : Optimisation HONPR1B : Project I HONPR2C : Project II (Prerequisite: HONPR1B) HONSM1A : Stochastic modelling I plus any 5 of the following: HONSM2B : Stochastic modelling II (Prerequisite: HONSM1A) HONASMB : Applied stochastic modelling (Co-requisite: HONSM1A) HONDANE : Decision analysis HONFIN6 : Financial mathematics HONFORP : Forecasting HONMD1Y : Introduction to the mathematical modelling of derivatives I HONMD23 : Introduction to the mathematical modelling of derivatives II (Prerequisite: HONSM1A, HONMD1Y) HONNNSH : Neural networks HONSIMG : Simulation HONCS1Y : Capita selecta The paper HONSM2B is offered by the Department of Mathematical Sciences (as APM4024). ADMISSION REQUIREMENTS Physics (Degree code: 04502) An average of at least 60% for a full complement of third-year Physics modules. (Under exceptional circumstances and at the discretion of the Chairperson of the Department, candidates not satisfying the above requirement, may be provisionally admi ed for two modules only. If these are passed, admission to the Honours degree may be considered.) CURRICULUM The curriculum comprises ten modules. (i) (ii) In addition to the prerequisites indicated below, access to a computer which is capable of executing programmes in at least one of the computer languages Fortran, Basic, C or Pascal is a further requirement for module PHY419R (Numerical Physics). The computer facilities of the Department of Physics are available to students who register for this module. Time can also be reserved on a computer in one of Unisa s microcomputer laboratories in Pretoria, Polokwane, Cape Town and Durban. For module PHY419R, students must a end a practical course of one week during September/October in the laboratory of the Department of Physics in Pretoria, during which they must do a practical examination. A sub-minimum of 50% must be obtained in the practical examination as well as in the theoretical examination which is wri en in January/ February. Both components carry equal weight in the calculation of the 39

41 final mark. Credit for only one component (theoretical or practical) can be retained for a maximum of two successive academic years a er the year in which it was passed, on condition that the student passes the other component within that period. PHY405K : Advanced Mathematical Methods (Prerequisites: Any four third level PHY modules (PHY305 and PHY309 excluded) or Physics III) PHY406L : Electromagnetism I (Prerequisites: as for PHY405) PHY407M : Electromagnetism II (Prerequisites: as for PHY405, Co-requisites: PHY406) PHY408N : Quantum Mechanics I (Prerequisites: as for PHY405) PHY409P : Quantum Mechanics II (Prerequisites: as for PHY405, Co-requisite: PHY408) PHY413K : Solid State Physics (Prerequisites: as for PHY405) PHY418Q : Statistical Physics (Prerequisites: as for PHY405) PHY419R : Numerical Physics (Prerequisites: as for PHY405) PHY420J : Project (Prerequisites: as for PHY405) PHY421K : Nuclear Physics (Prerequisites: as for PHY405) TRANSITIONAL ARRANGEMENTS Students who have passed PHY412J and/or PHY414L retain credit for the module(s) passed and must, in consultation with the Head of the Department, choose the outstanding module(s) from those listed above. Students who have passed one of (or both) the modules indicated in List A below under a previous curriculum may not register for the module opposite to it in List B: List A PHY416N PHY410G CURRICULUM List B PHY421K PHY420J Statistics (Degree code: 04596) The curriculum comprises ten fourth-level modules as listed below. With the approval of the Heads of the Departments concerned, not more than two of the modules may be replaced by fourth-level modules or an Honours paper from a subject in which the student has sufficient background knowledge. The syllabuses, further particulars on the admission requirements, choice of modules, etc appear in the Departmental brochure on postgraduate studies which is obtainable free of charge from the Registrar on request. STA401S : Matrix Methods in Statistics STA414X : Statistical Techniques A: Functional methods STA415Y : Statistical Techniques B: Structural methods (Corequisite: STA401) STA4163 : Nonparametric regression STA4174 : Survival analysis STA421W : Multivariate Distribution Theory (Co-requisite: STA401) STA431Y : Linear Model A (Co-requisite: STA401) STA4334 : Regression A (Co-requisite: STA431) STA4356 : Time Series (Co-requisite: STA401) STA4528 : Sampling Techniques Only in highly exceptional circumstances will a student be allowed to register for more than five modules in any year of study. Such a student must obtain the wri en permission of the Head of the Department beforehand. C h a p t e r 5 Rules for the Degree of Master of Administration These rules should be read in conjunction with the general rules and the general information in Part 1 of the Calendar. See General Rules PG11 to PG18 regarding duration of study, reregistration, requirements for dissertation, etc. PSc35 Admission Subject to the requirements of General Rule PG10(1), a student must hold the Honours BAdmin degree. PSc36 Subjects The degree may be conferred in Statistics (Degree code: 07145) in this college. PSc37 CURRICULUM Curriculum Statistics (Degree code: 07145) The curriculum consists of a research dissertation on an approved topic and at most five prerequisite modules specified by the Department. Thc choice of modules rests with the department and the supervisor in consultation with the student. Students must pass at least three of these modules before submi ing a dissertation topic and research proposal. Particulars regarding the admission requirements as well as available modules appear in the brochure on Postgraduate Studies in Statistics. With the approval of both the Heads of the Departments concerned, not more than two of the modules may be replaced by postgraduate modules from another subject if the Heads of Departments are of the opinion that the knowledge covered in these modules are relevant to the research topic. Each module and the dissertation must be passed seperately with at least 50%. C h a p t e r 6 Rules for the Degree of Master of Arts These rules should be read in conjunction with the general rules and the general information in Part 1 of the Calendar. See General Rules PG11 to PG18 regarding duration of study, reregistration, requirements for dissertation, etc. 40

42 PSc44 Admission requirements Subject to the provisions of General Rule PG10(1), a student must hold the degree of Honours Bachelor of Arts. CURRICULUM Statistics (Degree code: 06114) PSc45 Subjects The degree may be conferred in Statistics (Degree code: 07471) in this College. PSc46 Curriculum and other requirements Unless otherwise indicated below, the curriculum comprises a dissertation on an approved topic. Any special requirements are also indicated below. CURRICULUM Statistics (Degree code: 07471) The curriculum consists of a research dissertation on an approved topic and at most five prerequisite modules specified by the Department. The choice of modules rests with the department and the supervisor in consultation with the student. Students must pass at least three of these modules before submi ing a dissertation topic and research proposal. Particulars regarding the admission requirements as well as available modules appear in the brochure on Postgraduate Studies in Statistics. With the approval of both the Heads of the Departments concerned, not more than two of the modules may be replaced by postgraduate modules from another subject if the Heads of Departments are of the opinion that the knowledge covered in these modules are relevant to the research topic. Each module and the dissertation must be passed separately with at least 50%. C h a p t e r 7 Rules for the Degree Master in Commerce These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. See General Rules PG11 to PG18 regarding duration of study, reregistration, requirements for dissertation, etc. PSc38 Admission Subject to the provisions of General Rule PG10(1), a student must hold the Honours BCom degree. PSc39 Curriculum Unless otherwise indicated below, the curriculum comprises a dissertation on an approved topic. Any special requirements are also indicated below. The curriculum consists of a research dissertation on an approved topic and at most five prerequisite modules specified by the Department. Thc choice of modules rests with the department and the supervisor in consultation with the student. Students must pass at least three of these modules before submi ing a dissertation topic and research proposal. Particulars regarding the admission requirements as well as available modules appear in the brochure on Postgraduate Studies in Statistics. With the approval of both the Heads of the Departments concerned, not more than two of the modules may be replaced by postgraduate modules from another subject if the Heads of Departments are of the opinion that the knowledge covered in these modules are relevant to the research topic. Each module and the dissertation must be passed separately with at least 50%. C h a p t e r 8 Rules for the Degree of Master of Science These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. See General Rules PG11 to PG18 regarding duration of study, reregistration, requirements for dissertation, etc. PSc9 Admission To be admi ed, students must hold an Honours Bachelor s degree or an equivalent qualification and satisfy Senate as to their proficiency in the subject concerned. Any special admission requirements are indicated under PSc14 below. PSc10 Subjects The degree may be conferred in the following subjects: Applied Mathematics Astronomy Chemical Education Chemistry Computer Science Geography see Part 3 of the Calendar Information Systems Mathematics Mathematics Education Operations Research Physics Statistics PSc11 Composition and completion of curriculum (1) The curriculum must be compiled in consultation with the Head of the Department. The curriculum requirements are indicated under PSc14 below. 41

43 (2) All the papers/modules are not necessarily offered each year and the Head of the Department must be consulted beforehand. (3) Subject to the provisions of General Rule PG11(2), modules/ papers may be wri en separately or concurrently. (4) Rule PSc4(2) and (3) shall apply. (5) The theoretical examination in each module with a theoretical component consists of one two-hour, three-hour or four-hour paper. PSc12 Scientific article A student who must submit a dissertation, a dissertation of limited scope or a short dissertation for examination must, together with the examination copies thereof, submit the same number of copies of a scientific article in the form of either a manuscript or a reprint of an article which is based on the research. The article must, where applicable, be wri en under the guidance of the student s supervisor and, if applicable, the joint supervisor. The copies of the article will be sent to the examiners as additional information. Students are advised to submit the article to an approved subject journal for publication if such publication has not already taken place. PSc13 Pass, retaining of credit and pass with distinction (1) To pass a paper or a module, a candidate shall obtain at least 50% in it. The pass-mark for a dissertation or a dissertation of limited scope is also 50%. (2) To be awarded the degree with distinction, a candidate shall obtain an average of at least 75% in the minimum prescribed requirement(s). The wri en examination in Chemistry is not taken into consideration for this purpose. PSc14 Curriculum requirements Further particulars regarding the admission requirements and the curricula appear in the departmental brochures on postgraduate studies which are available free of charge, on request, from the Registrar. Applied Mathematics (Degree code: 06580) The curriculum comprises either two papers set on approved topics and a dissertation of limited scope on an approved topic, or a dissertation only. If two papers and a dissertation of limited scope are offered, the weight of the papers shall be 40% and that of the dissertation of limited scope 60%. Each paper and the dissertation of limited scope must be passed separately. Astronomy (Degree code: 06572) The curriculum comprises either two papers set on approved topics and a dissertation of limited scope on an approved topic, or a dissertation only. If two papers and a dissertation of limited scope are offered, the weight of the papers shall be 40% and that of the dissertation of limited scope 60%. Each paper and the dissertation of limited scope must be passed separately. Chemical Education (Degree code: 07277) No new registrations will be allowed for this subject. Students who are registered for the MSc degree in Chemical Education will be allowed to complete the degree. The curriculum comprises four modules (weight: 60%) and a dissertation of limited scope on an approved topic (weight: 40%). MCE501B and MCE502C are compulsory. Two additional modules must be selected a er consultation with the Head of the Department. These modules must be either MCE503D or MCE504E and one of MCE505F, MCE506G or MCE507H. The modules are as follows: MCE501B : Research in Education MCE502C : A topic in Chemistry MCE503D : Teaching and learning Chemistry at tertiary level MCE504E : Subject Didactics Physical Science MCE505F : Computer based instruction in Chemical Education MCE506G : Practical work in Chemistry at tertiary level MCE507H : Research information skills MCE501B and MCE504E are offered by the School of Education, MCE507H by the Departments of Library Services and Information Science in conjunction with the Department of Chemistry, and the remaining modules by the Department of Chemistry. The examination in MCE504E is conducted during October/November, while the examinations in the other modules, where applicable, are conducted during January/February. The examination in each of MCE501B and MCE504E comprises one two-hour paper. The examination in each of MCE502C, MCE503D and MCE506G comprises one three-hour paper. MCE505F comprises a project on which a report must be submi ed for examination purposes. MCE507H comprises a project which includes a endance of a compulsory practical information skill training session of at least 5 days during September in Pretoria. A report on the project must be submi ed for examination purposes. Chemistry (Degree code: 06491) Students must pass two examinations ( 50%) before they are allowed to submit a dissertation. These examinations may be wri en examinations or seminars on topics selected in consultation with the department. The wri en examinations are wri en in the Department of Chemistry and may be arranged at any time during the period of studies. The seminars should be given at the department and students should contact the Head of Department in order to arrange for the seminar(s) to be presented. An examination panel will assess the seminar. Computer Science (Degree code: 06556) The curriculum consists of a research dissertation on an approved topic and five prerequisite modules specified by the School of Computing. This course work is required to provide the student with the subject fundamentals and background material necessary for doing the research dissertation. In exceptional cases the requirement of completing some or all of the modules may be waived. The student will only be allowed to submit the dissertation for examination once the modules have been completed to the satisfaction of the study leader. The modules must be chosen in consultation with the Graduate Commi ee of the School of Computing and the student s supervisor. At least two of the five modules must be examination modules, while other assessment methods may be considered for the other three modules in consultation with the student s supervisor. Particulars regarding the available modules appear in the brochure on Postgraduate Studies in 42

44 the School of Computing which is obtainable free of charge on request from the Registrar. The brochure also contains details on admission requirements and advice on the compilation of a curriculum. Information Systems (Degree code: 06955) The curriculum consists of a research dissertation on an approved topic and five prerequisite modules specified by the School of Computing. This course work is required to provide the student with the subject fundamentals and background material necessary for doing the research dissertation. In exceptional cases the requirement of completing some or all of the modules may be waived. The student will only be allowed to submit the dissertation for examination once the modules have been completed to the satisfaction of the study leader. The modules must be chosen in consultation with the Graduate Commi ee of the School of Computing and the student s supervisor. At least two of the five modules must be examination modules, while other assessment methods may be considered for the other three modules in consultation with the student s supervisor. Particulars regarding the available modules appear in the brochure on Postgraduate Studies in the School of Computing which is obtainable free of charge on request from the Registrar. The brochure also contains details on admission requirements and advice on the compilation of a curriculum. Mathematics (Degree code: 06599) The curriculum comprises either two papers set on approved topics and a dissertation of limited scope on an approved topic, or a dissertation only. If two papers and a dissertation of limited scope are offered, the weight of the papers shall be 40% and that of the dissertation of limited scope 60%. Each paper and the dissertation of limited scope must be passed separately. Mathematics Education (Degree code: 06505) No new registrations will be allowed for this subject. Students who are registered for the MSc degree in Mathematics Education will be allowed to complete the degree. The curriculum comprises two papers or four modules on approved topics (weight: 40%) and a dissertation of limited scope on an approved topic (weight: 60%). Each paper or module and the dissertation of limited scope must be passed separately. Additional papers/modules may, with the approval of Senate, be prescribed for students who do not comply with the additional requirement under (b) above or whose background knowledge reveals deficiencies. Such papers/modules, which are taken for non-degree purposes, must be passed before the dissertation of limited scope may be submi ed for examination. The curriculum comprises: (a) (b) Operations Research (Degree code: 06610) a dissertation on an approved topic or two papers chosen from the list below and a dissertation of limited scope, the la er carrying the weight of three papers In the case of (a) it may be required that a reading programme and formative assessment be completed to the satisfaction of the Head of the Department before the student may start with the dissertation. In the case of (b) the papers must be passed before the student may start with the dissertation. MOPKOMD : Combinatorial analysis and heuristics MOPOPT4 : Optimisation theory MOPSP1R : Special topic MOPSP2S : Special topic One paper may be replaced with a postgraduate paper (or two fourthlevel papers) in a related subject, subject to the approval of the Heads of Departments concerned. The special topics vary from year to year and depend on the interests of the students. Examples are Quantitative techniques for finance, Risk modelling and Advanced methods for portfolio management. More information is given on the website of the Department of Decision Sciences and in the Departmental booklet on postgraduate studies, which can be obtained from the Registrar free of charge. Physics (Degree code: 06513) The curriculum comprises two of the fi h-level modules mentioned below, chosen in consultation with the supervisor, and a dissertation of limited scope. The weight of the two modules shall be 20% and that of the dissertation of limited scope 80%. PHY501J : Advanced Solid State Physics I (Prerequisites: PHY408, PHY409, PHY413) PHY502K : Advanced Solid State Physics II (Prerequisites: PHY408, PHY409, PHY413) PHY505N : Sca ering Theory (Prerequisites: PHY408, PHY409) PHY514P : Applied Solid State Physics I (Prerequisites: PHY413) PHY515Q : Applied Solid State Physics II (Prerequisites: PHY413) PHY516R : Nuclear Reactions (a student who has passed PHY417P may not register for PHY516R) (Prerequisites: PHY421) Statistics (Degree code: 06602) The curriculum consists of a research dissertation on an approved topic and at most five prerequisite modules specified by the Department. The choice of modules rests with the department and the supervisor in consultation with the student. Students must pass at least three of these modules before submi ing a dissertation topic and research proposal. Particulars regarding the admission requirements as well as available modules appear in the brochure on Postgraduate Studies in Statistics. With the approval of both the Heads of the Departments concerned, not more than two of the modules may be replaced by postgraduate modules from another subject if the Heads of Departments are of the opinion that the knowledge covered in these modules are relevant to the research topic. Each module and the dissertation must be passed seperately with at least 50%. C h a p t e r 9 Rules for the Degree of Master of Science in Mathematics, Science and Technology Education (Degree code: 07870) These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. 43

45 See General Rules PG11 to PG18 regarding duration of study, reregistration, requirements for dissertation, etc. PSc15 Admission To be admi ed, students must hold an (Honours) BSc degree or equivalent. Equivalence will be determined by an Admissions Commi ee. PSc16 Subjects The degree may be conferred in the following subjects: Astronomy Education (Specialisation code: AST) Chemistry Education (Specialisation code: CHE) Computing Education (Specialisation code: COM) Life Sciences Education (Specialisation code: LIF) Mathematics Education (Specialisation code: MAT) Physics Education (Specialisation code: PHY) Science Education (Specialisation code: SCI) Statistics Education (Specialisation code: STA) Technology Education (Specialisation code: TEC) PSc17 Curriculum The curriculum consists of a research dissertation on an approved topic and four compulsory modules. The modules are designed to enable students to acquire the necessary background knowledge to produce a research dissertation. The compulsory modules are: MSTCONS : Contributions from Cognitive Science to Teaching and Learning (12 credits) MSTTHER : Contemporary Theories of Learning and Implications for Teaching (12 credits) MSTPRE3 : Research Methods in Mathematics, Science and Technology Education (24 credits) MSTHIS4 : History and Philosophy of Science A presentation must be submi ed, accepted and presented at a national or international conference related to MST Education or an article must be submi ed to a recognized journal. C h a p t e r 11 Rules for the Degree of Doctor of Commerce These rules should be read in conjunction with the general rules and the general information in Part 1 of the Calendar. See General Rules PG19 to PG23 regarding admission, duration of study, re-registration, requirements for thesis, etc. PSc42 Subjects The degree may be conferred in Statistics (Degree code: 08117) in this college. PSc43 The curriculum comprises a thesis on an approved topic. Curriculum C h a p t e r 12 Rules for the Degree of Doctor of Philosophy These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. See General Rules PG20 to PG23 regarding duration of study, reregistration, requirements for thesis, etc. C h a p t e r Rules for the Degree of Doctor of Administration These rules should be read in conjunction with the general rules and the general information in Part 1 of the Calendar. See General Rules PG19 to PG23 regarding admission, duration of study, re-registration, requirements for thesis, etc. PSc40 Subjects The degree may be conferred in Statistics (Degree code: 09016) in this college. PSc41 The curriculum comprises a thesis on an approved topic. Curriculum PSc20 Admission To be admi ed, students must hold a Master s degree or an equivalent qualification and have satisfied Senate as to their proficiency in the subject concerned. Any special admission requirements are indicated under PSc22 below. Further particulars on the admission requirements appear in the departmental brochures on postgraduate studies which are available free of charge, on request, from the Registrar. PSc21 Subjects The degree may be conferred in the following subjects: Applied Mathematics (Degree code: 08567) Astronomy (Degree code: 08559) Chemistry (Degree code: 08478) Computer Science (Degree code: 08532) Consulting Psychology (Degree code: 0927X) Geography (See Part 3 of the Calendar) Information Systems (Degree code: 09849) Mathematics (Degree code: 08575) Mathematics Education (Degree code: 08508) Operations Research (Degree code: 08591) Physics (Degree code: 08494) Statistics (Degree code: 08583)

46 PSc22 Curriculum Unless otherwise indicated below, the curriculum comprises a thesis on an approved topic. Any special requirements are also indicated below. Chemistry (Degree code: 08478) Students must pass two examinations ( 50%) before they are allowed to submit a thesis. These examinations may be wri en examinations or seminars on topics selected in consultation with the department. The wri en examinations are wri en in the Department of Chemistry and may be arranged at any time during the period of studies. The seminars should be given at the department and students should contact the Head of Department in order to arrange for the seminar(s) to be presented. An examination panel will assess the seminar. Mathematics Education (Degree code: 08508) No new registrations will be accepted for this subject. Students who are registered for the PhD in Mathematics Education will be allowed to complete the degree. ADMISSION REQUIREMENTS In order to be admi ed, a student must: (a) have obtained an MSc degree in Mathematics Education or Mathematics or an equivalent qualification; and (b) furthermore one of the following qualifications is preferable but not compulsory: an approved postgraduate Diploma in Education, or an Honours BEd degree, or a four year composite Degree in Education with Mathematics as a major subject. CURRICULUM The curriculum comprises a thesis on an approved topic. Certain papers/modules may, with the approval of Senate, be prescribed for students who do not comply with the additional requirement under (b) above or whose background knowledge reveals deficiencies. Such papers/modules, which are taken for non-degree purposes, must be passed before the thesis may be submi ed for examination. PSc23 Scientific article When students submit the thesis for examination, they must, together with the examination copies thereof, submit the same number of copies of a scientific article in the form of either a manuscript or a reprint of an article which is based on the research. The article must, where applicable, be wri en under the guidance of the student s promoter and, if applicable, the joint promoter. The copies of the article will be sent to the examiners as additional information. Students are advised to submit the article to an approved subject journal for publication if such publication has not already taken place. C h a p t e r 13 Rules for the Degree of Doctor of Philosophy in Mathematics, Science and Technology Education (Degree code: 09873) These rules should be read in conjunction with the general rules and general information in Part 1 of the Calendar. See General Rules PG20 to PG23 regarding duration of study, reregistration, requirements for thesis, etc. PSc24 Admission To be admi ed, a student must hold an MSc degree or equivalent. Equivalence will be determined by an Admissions Commi ee comprising of the Executive Dean of the College of Science, Engineering and Technology, Professor of Science Education and the relevant Head(s) of Department. PSc25 Subjects The degree may be conferred in the following subjects: Astronomy Education (Specialisation code: AST) Chemistry Education (Specialisation code: CHE) Computing Education (Specialisation code: COM) Life Sciences Education (Specialisation code: LIF) Mathematics Education (Specialisation code: MAT) Physics Education (Specialisation code: PHY) Science Education (Specialisation code: SCI) Statistics Education (Specialisation code: STA) Technology Education (Specialisation code: TEC) PSc26 The curriculum comprises a thesis on an approved topic. PSc27 Curriculum Other requirements Students should present at least one paper at a national or international conference. A wri en version of the paper should also be produced in a form suitable for publication in conference proceedings. An article, based on the research, should be submi ed to an international journal in the field for publication. 45

47 SECTION 4: RULES FOR VOCATIONALLY ORIENTED QUALIFICATIONS As from 2006 there will only be ONE registration period in the College of Science, Engineering and Technology, that is December to February. C h a p t e r 1 School of Computing Important information 1 Prerequisite hardware and software Computer facilities are prerequisites for students enrolling for the National Diploma: Information Technology. Students must have access to computer facilities or have their own computer with the specific so ware they will require. Use the following as a guideline to ensure that you have the minimum computer configuration (or higher): An IBM TM compatible machine using a Windows 2000/XP operating system 80 GB hard disk drive (at least 20 GB free for so ware installations) 512 MB RAM Colour SVGA screen with 4MB controller A mouse CD-RW/DVD drive Printer (DeskJet or Laser Printer) Access to the Internet Access to 2 Maximum duration of registration for a qualification Information Technology is a rapidly changing industry hence new courses are frequently phased in while older ones are phased out. If you take more than five years to complete your diploma, Unisa reserves the right to demand that certain modules be repeated before the diploma will be awarded. 3 Phasing out of the NDINF As from 2008 the School of Computing is offering a recurriculated diploma in Information Technology. All first year level students will be registered for the new programme. As we are offering a new programme while phasing out the old instructional programmes, you must ensure that you select and register for the correct instructional programme/modules. TRANSITIONAL ARRANGEMENTS Students registered prior to 2008 at Unisa for a diploma in Information Technology should take note of the following transitional arrangements: You have the option to convert to the new programme and receive credits towards modules completed within the last three years in the NDINF. It is advisable to convert to the new programme as soon as possible, since a delay may incur a loss of credits. The second year specialisation areas for the NDINF will continue as is for 2008 and the third year will continue as is for 2008 and You have to complete the modules specific to the specialistion area by the end of If you do decide to convert to the new programme, you should take note of the following important information on the transfer of credits. Each student s academic record will be evaluated in order to determine credits. Module passed ASK131U DEV1M1I and DEV1M2I DEV1M2I INY1M1I INY1M2I INY1M3I ITV151I LLS101E SSO1M1S SSO1M2S BUA201I CPM101I DEV201I GUI101I INT2M1I and INT2M2I INY2M1S INY2M2S SSS241F TEP101I WEB201I BUA301I INY3M1I TEP201I Advanced topics: DEV3M1I or WEB3M1I or IPG3M2I or TPG3M2I or SSS3M1I Project Management: INY3M2I or WEB3M2I or SSS3M2I Project: DEV3M2I or IPG3M1I or TPG3M1I Module which may not be taken ASK131U COS111U ICT1129 ICT141E CEM101A ICT121A ITV151I LLS101E ICT131C ICT132D ICT241H and ICT242J ICT211D ICT213F ICT113A ICT212E ICT221D ICT222E ICT231F ICT212C ICT213D ICT341L and ICT342M ICT322H ICT311E ICT312F ICT343N ICT313G and ICT314H 46

48 1. National Diploma: Information Technology (phasing in from 2008) (Programme code: NDINL) New curriculum Purpose: to enable qualifying students to analyse, design, develop and maintain web systems, networks, database systems, programming products and interfaces according to client requirements, applying principled methodologies in continuously changing industrial, organisational and commercial information and communication technology environments. The curriculum comprises 30 modules. FIRST LEVEL This level comprises the following 10 compulsory modules: CEM101A : End-user computing COS111U : Introduction to programming 1 ICT1129 : Introduction to interactive programming ICT113A : Introduction to web design ICT121A : Introduction to databases ICT131C : Workstation technical skills ICT132D : Network technical skills ICT141E : Business informatics I LLS101E : Language and life skills ITV151I : Entrepreneurship SECOND LEVEL (offered for the first time in 2009) This level comprises the following 10 compulsory modules: ASK131U : Accounting skills I ICT211D : Graphical user interface programming ICT212E : Interactive programming ICT213F : Internet programming ICT221D : Structured systems analysis and design ICT222E : Object-oriented analysis ICT231F : Operating systems practice ICT232G : Digital logic ICT241H : Business informatics 2A ICT242J : Business informatics 2B THIRD LEVEL (offered for the first time in 2010) This level comprises the following 10 compulsory modules: ICT311E : Advanced graphical user interface programming ICT312F : Advanced internet programming ICT313H : Information and communication technology project proposal ICT314J : Information and communication technology project implementation ICT321G : Database practice ICT322H : Database design ICT331J : Advanced operating systems practice ICT341L : Business informatics 3A ICT342M : Business informatics 3B ICT343N : So ware project management 1. National Diploma: Information Technology (phasing out) (Programme code: NDINF) Old curriculum As from 2008 all first year level students must register for the new programme. If you have successfully passed all the first level modules in NDINF you may continue with any of the four specialisation areas. Specialisation areas: Business Applications So ware Development Web and Applications Development Technical Applications Specialisation areas BUSINESS APPLICATIONS (SPEC : BUA) PHASING OUT FIRST LEVEL This level comprises 9 subjects. See transitional arrangements. SECOND LEVEL (these modules will be offered for the last time in 2008) This level comprises 5 subjects. BUA201I : Business Analysis II INY2M1S : Information Systems II: Structured Systems Analysis and Design INY2M2S : Information Systems II: Object-Oriented Systems Analysis and Design DEV201I : Development So ware II ASK131U : Accounting Skills I THIRD LEVEL (these modules will be offered for the last time in 2009) This level comprises 6 subjects. BUA301I : Business Analysis III INY3M1I : Information Systems III: Databases INY3M2I : Information Systems III: Project Management DEV3M1I : Development So ware III: Advanced Topics DEV3M2I : Development So ware III: Project CPM101I : Commercial Programming I SOFTWARE DEVELOPMENT (SPEC : SOD) PHASING OUT FIRST LEVEL This level comprises 9 subjects. See transitional arrangements. SECOND LEVEL (these modules will be offered for the last time in 2008) This level comprises 5 subjects. INY2M1S : Information Systems II: Structured Systems Analysis and Design INY2M2S : Object-Oriented Systems Analysis and Design DEV201I : Development So ware II TEP101I : Technical Programming I (Java) GUI101I : Graphical User Interface Design I THIRD LEVEL (these modules will be offered for the last time in 2009) This level comprises 6 subjects. INY3M1I : Information Systems III: Databases INY3M2I : Project Management DEV3M1I : Development So ware III: Advanced Topics DEV3M2I : Development So ware III: Project CPM101I : Commercial Programming I TEP201I : Technical Programming II 47

49 WEB AND APPLICATIONS DEVELOPMENT (SPEC : WEB) PHASING OUT FIRST LEVEL This level comprises 9 subjects. See transitional arrangements. SECOND LEVEL (these modules will be offered for the last time in 2008) This level comprises 6 subjects. INT2M1I : Internet Programming II: Internet Fundamentals INT2M2I : Internet Programming II: Java INY2M1S : Information Systems II: Structured Systems Analysis and Design INY2M2S : Information Systems II: Object-Oriented Systems Analysis and Design WEB201I : Web Management II GUI101I : Graphical User Interface Design I THIRD LEVEL (these modules will be offered for the last time in 2009) This level comprises 6 subjects. IPG3M1I : Internet Programming III: Project IPG3M2I : Advanced Topics WEB3M1I : Web Management III: Advanced Topics WEB3M2I : Web Management III: Project Management CPM101I : Commercial Programming I SSS241F : Systems So ware II TECHNICAL APPLICATIONS (SPEC : TEA) PHASING OUT FIRST LEVEL This level comprises 9 subjects. See transitional arrangements. SECOND LEVEL (these modules will be offered for the last time in 2008) This level comprises 5 subjects. INY2M1S : Information Systems II: Structured Systems Analysis and Design INY2M2S : Information Systems II: Object-Oriented Systems Analysis and Design TEP101I : Technical Programming I (Java) GUI101I : Graphical User Interface Design I SSS241F : Systems So ware II THIRD LEVEL (these modules will be offered for the last time in 2009) This level comprises 6 subjects. TEP201I : Technical Programming II TPG3M1I : Technical Programming III: Project TPG3M2I : Technical Programming III: Advanced Topics SSS3M1I : Systems So ware III: Advanced Topics SSS3M2I : Systems So ware III: Project Management CPM101I : Commercial Programming I 2. BTech: Information Technology (Programme code: BTINF) The last year for new registrations for the degree BTech: Information Technology is All students have to complete the qualification by Admission requirements: A National Diploma: Information Technology or equivalent qualification with Information Systems III and Development So ware III or an applicable university degree. An overall average of 60% for the major subjects (Information Systems and Development So ware) or equivalent subjects at the third-year level. Employment in an IT-related capacity. Access to the Internet. Applications that do not fall within these parameters will be considered on merit. 2.2 How to enrol: Students who want to enrol for the BTech must apply to the School of Computing for admission. The following documents must be included with your application: A copy of each of your previously obtained degrees/diplomas. If you are unsure whether your qualifications will be sufficient for admission to the BTech degree, also include copies of certificates for all training courses/seminars/workshops related to the IT discipline that you a ended. An academic record for each qualification obtained. Concise curriculum vitae. Please supply sufficient details of current and previous employment. (Note that this is only required if you did not obtain a National Diploma: Information Technology at a Technikon within the past five years.) The completed application form included on the second last page of this book. If you have already obtained approval to register for the BTech on a previous occasion, please hand in a certified copy of your National Diploma as well as a certified copy the approval form. This will accelerate the registration process considerably. Unisa will not necessarily admit all students for the degree programme and may require the student to complete more subjects if the student s previous qualifications and/or results are considered inadequate for the BTech degree programme. Specialisation area: Software Development The BTech: Information Technology will be awarded to a student who has passed NINE subjects of the prescribed curriculum. The minimum recommended duration for the degree is two years. COMPULSORY SUBJECTS CURRICULUM Information and Technology Management IV Research Methodology Project IV: Practical Project SUBJECT INT401I RME101Q PRJ4M1I PREREQUISITE/NOTE It is recommended that you register for Research Methodology in your 1st year of study as this subject is a prerequisite for the subject: Project IV. Note that the subject: Project IV consists of two modules. You must pass both modules in order to obtain credit for the subject. Do NOT register for these modules in your first year of studying for the BTech (Refer to the syllabus) Prerequisite: Research Methodology Research Script PRJ4M2I Prerequisite: Research Methodology 48

50 CURRICULUM Development So ware IV Advanced Development So ware IV SUBJECT DSO401I DEV401I PREREQUISITE/NOTE It is recommended that you register for Development So ware IV in your 1st year of study as this subject is a prerequisite for the subject: Advanced Development So ware IV. Prerequisite: Development So ware IV CHOOSE THE REST OF YOUR SUBJECTS FROM THE TABLE BELOW CURRICULUM So ware Engineering and Design IV Operating Systems IV Networks IV Database Systems IV Computer Security IV SUBJECT SED401I OPS401I NTW401I DBS401I CPS401I PREREQUISITE/NOTE This subject is similar to So ware Engineering IV (SWE401I) from the curriculum of the old BTech: Information Technology. You will receive a credit for this subject if SWE401I was already completed. 3. MTech: Information Technology (Programme code: MTINT) 3.1 Admission requirements: BTech: Information Technology or equivalent qualification. Students must have passed a 4th level instructional offering in Research Methodology. 3.2 Contact details: Before registering for the MTech: Information Technology degree, contact the School of Computing for more details and information. Details available on the website: h p:// Admission into this programme is dependent upon an acceptable topic and the availability of a suitable supervisor. CURRICULUM SUBJECT Official Registration: Research Project RPI501I PREREQUISITE / NOTE This instructional programme comprises the completion of a thesis. In the thesis students must prove that they understand a particular problem in the industry in which they have done research, are able to analyse and present it logically, are able to arrive at logical conclusions or a diagnosis, and are then able to make proposals for the improvement / elimination of the problem. The thesis must comply with UNISA s general technical requirements and rules with regard to scope, quality and layout. Surname Student Number (If available) Tel Fax Academic Qualifications APPLICATION FOR ADMISSION BTECH (IT) (available on Qualification (1) Technikon / University Qualification (2) Technikon / University Qualification (3) Technikon / University ID Number Cell Initials Year Year Year List the two main subjects of your Diploma or equivalent qualification as well as the percentage obtained in your third year. How many years experience do you have in the IT industry? (Total) List the time frames and job titles e.g: Programmer Please start with your current position and work backwards. Summary of job responsibilities (ITrelated) in the past two years. List any Industry qualifications obtained, e.g. MCSE, CNE, etc Do you have access to the Internet? (Yes/No) YES NO I hereby declare that to the best of my knowledge, the above information is true. I also acknowledge that I have taken note of the fact that the BTech: IT degree is offered via the Internet and that I have to obtain study material (except prescribed books) for subjects (except non-it subjects), from UNISA s website. % % SIGNATURE Please a ach all other relevant documentation (Diploma, academic record, CV). Note: Comprehensive CV only required if you do not have a National Diploma in Information Technology. 49

51 C h a p t e r 2 A School of Engineering General Notice Admission requirements ONE of the following: 1. Senior certificate with Mathematics, Physical Science and English with at least an E symbol on the Higher Grade or a D symbol on the Standard Grade. OR 2. An N3 certificate with Mathematics, Engineering Science and English with a minimum mark of 50% (For Engineering: Chemical, Industrial Chemistry N3 is required as well.) OR 3. An N4 certificate with Mathematics and Engineering Science with a minimum mark of 50%. (For Engineering: Chemical, Industrial Chemistry N3 is required as well.) OR 4. The equivalent of number 1, 2 or 3 will be considered. 5. Any student might be requested to write a pre-registration test to ensure correct placement. B Provisional admission Students who do not comply with the admission requirements in terms of the marks obtained for Mathematics, Science or English, will only be permi ed to register for the non-mathematical first level study units such as Communication Skills I and Computer Skills I. Students must improve their marks in Mathematics, Science or English in order to be admi ed to the other mathematical study units. Students who do not satisfy the minimum requirements for Physical Science may register for the SCIENTP for access purposes. As soon as SCIENTP has been passed, the student may register for the National Diploma. Students can improve their marks for the relevant study units by one of the following options: 1. Registering for Mathematics and/or Engineering Science at N3 level at any technical college. 2. Registering for equivalent study units at any other recognised institution. 3. Registering for the appropriate study units contained in the Access Brochure 4. Registering for Mathematics (MAT011K) and Science Tertiary Preparation (SCIENTP) LABORATORY COMPONENT OF STUDY UNITS (PRACTICAL) Certain study units require compulsory laboratory work. The student can either complete the laboratory component in his working environment or a end a laboratory workshop. Students who choose to a end a laboratory workshop for the particular subject should enquire about the schedule. Additional fees must be paid for the practical session or workshop as it is not covered by the registration fees. The number of study units for which a student may register is optional and obviously depends on the amount of study time available. As a general rule, and in order to establish a sound basis for study management, students should allow themselves a minimum of one hour of study per day per subject. This figure should then be kept in mind when selecting the number of study units. Please consult the responsible lecturer before registering for more than four study units. C C.1 INTRODUCTION Work Integrated Learning Modules (also referred to as Experiential Learning) for Engineering students To fulfill the requirements for the National Diploma: Engineering a student must have completed a minimum of one year work integrated learning: (In some courses this period is 18 months). This Work Integrated Learning should be under the guidance of a qualified supervisor (in some cases ECSA registered and termed a mentor) according to the syllabus guidelines. These guidelines are given in the respective programme sections. On completion of the student s work integrated learning period, the employer (supervisor/mentor) must certify that he/she has completed such learning successfully. If the employer feels that the student does not meet the minimum requirements for the National Diploma and his/her performance is still not up to standard, the period of work integrated learning: can be extended. C.2 GENERAL The Work Integrated Learning component for the Engineering and Mining courses is offered as one subject or as multiple subjects. A student must register, and satisfactorily complete the requirements of this subject(s) at some point in his/her studies, before a qualification can be awarded. The implication for the student is that he/she must be employed at some time in the course of his/her studies by an employer who can offer relevant and necessary Work Integrated Learning. If the student is not able to complete this work integrated learning:, he/she will not be awarded the qualification, even though all the academic subjects have been passed. Work Integrated Learning is usually monitored by means of a log-book and mentor system. C.3 PLACEMENT OF STUDENTS It must be emphasised that Unisa is not responsible for arranging Work Integrated Learning opportunities. In certain cases the academic staff in the School of Engineering will endeavor to facilitate certain placements. C.4 STUDENT VISITS A Unisa representative will visit the student and his/her mentor occasionally on a need-to basis. D Requirements for information technology related study units Computer facilities are prerequisites for students enrolling for any of the Information Technology related study units. Students must have access to computer facilities or have their own computer with the specific so ware they will require. Use the following as a guideline to ensure that you have the minimum computer configuration (or higher): an IBMTM compatible machine using a Windows 2000/NT/XP operating system. 20GB harddisk drive 128MB RAM Colour SVGA screen with 4MB controller A mouse Stiffy drive CD-ROM drive (54 speed)/dvd drive Printer (Deskjet or Laser Printer) 50

52 Access to facilities and occasional Internet accesses on first year level Access to and Internet facilities on higher levels 1. National Instructional Programmes: Mining and Mining-related 1a General A diploma is a qualification awarded to students who have successfully completed a total of three year levels of study comprising theory AND acceptable work integrated learning:/work Integrated Learning in the relevant field of study. (iv) 1d A Practical Guide (Log-book) is issued on registration of the Practice (work integrated learning:) subject for the purpose of guiding, recording and verifying the work integrated learning: gained. The log-book includes a guide to the mentor which is there for your information as well. It also includes a tutorial le er which will inform you, in more detail, what the requirements are for completing this subject. The log-book covers three year levels and must be completed satisfactorily to gain a pass at each year level of the subject. The exception is the mining engineering diploma, which only covers 2 year levels. Registration for any Practice subject is valid for 12 months per year level. Therea er you will need to re-register for the subject. Medium of instruction 1b Admission requirements English is the medium of instruction and for writing assignments and examinations. Responses in other languages may be accepted provided that the lecturer concerned consents. See admission requirements for the School of Engineering. Consult the Access Brochure if you do not meet these requirements. It is strongly recommended that students who wish to register for the subject MINERAL EXPLOITATION I (MEP171X) must be or have been employed or doing work integrated learning in or on a mine. It is further recommended that the student has either passed Mathematics I or does Mathematics I in conjunction with this subject. Students should contact one of the mining lecturers for advice in this regard. 1c Work Integrated Learning (WIL) This is the term used to describe the practical on the job exposure that a student must have and forms part of the minimum requirements for the ultimate awarding of any mining or mining related diploma. Please note that Unisa is not in a position to instruct any mining company to offer WIL to you (if you are unemployed). The above conditions apply to MINING AND MINING-RELATED DIPLOMAS ONLY. Other Engineering fields have different criteria. 1e Advice to students The number of study units for which a student may register at any one time is optional and obviously depends on the amount of study time available and the ability of the student. As a general rule students should allow themselves a minimum of one hour of study time per day per subject (over 5 days). This figure should then be kept in mind when selecting the number of study units. (Most employed students take three study units or less.) 1f Requirements for Information Technology related study units Computer facilities are prerequisites for students enrolling for any of the Information Technology related study units. Students must have access to computer facilities or have their own computer with the specific so ware they will require. (i) (ii) (iii) Ideally you should be employed on a mine or related operation where you can gain exposure to the practical aspects relating to your field of study. Further information is given with the information on each diploma in this calendar. Students, who have already acquired adequate experience in their field of study may apply for credit for part of or the entire work integrated learning: component. This application is called: Recognition of Prior Experiential Learning (RPL). It is very important to note that credit will be awarded not for experiences you have had but rather for what you have learned from your experiences. In most instances a portfolio will be required. In this context a portfolio will be a file or folder of information, which describes your relevant experience, identifies and analyses your learning achievements and provides proof in the form of documents that you do have the skills that you claim. It will include a CV and a comprehensive record of employment. A portfolio is not just pu ing together a set of documents for someone else to assess, but is also seen as a valuable learning experience. The portfolio must adequately: Identify/describe your relevant learning accomplishments (knowledge, skills, competencies, abilities) Show a match between learning achievements and the requirements of the course Verify these learning accomplishments with supportive documents. Use the following as a guideline to ensure that you have the minimum computer configuration (or higher): an IBM TM compatible machine using a Windows 2000/NT/XP operating system. 20GB harddisk drive 128MB RAM Colour SVGA screen with 4MB controller A mouse Stiffy drive CD-ROM drive (54 speed)/ DVD drive Printer (Deskjet or Laser Printer) Access to facilities and occasional Internet accesses on first year level Access to and Internet facilities on higher levels Please note that less than the mentioned minimum configuration will not be sufficient. 51

53 National Diploma: Mine Surveying (Programme code: NDMSR) Admission requirements See admission requirements for the School of Engineering. Note that this is a mine specific diploma. Read work integrated learning: requirements Aim of diploma To produce competent mine surveyors whose responsibilities (simplified) would include taking measurements upon and under the surface of the earth either in a horizontal or vertical plane and showing the results in the form of a map or plan applicable to the relevant mineral deposit to be mined Career opportunities Mining remains one of the major role-players in the South African economy and offers employment opportunities for the technically qualified person both in the exploratory stage as well as in the production phase of its operation Curriculum PART 1 1. MEM101U Mineral Engineering Management I 2. SMI181Q Science: Mining I Science Gr 12/N3/Tertiary Preparation 3. WIM131U Mathematics: Mining I Mathematics Gr 12/N3/ Tertiary Preparation 4. MEP171X Mineral Exploitation I Mathematics Gr 12/N3/ Tertiary preparation. It is recommended that this subject is a empted together with or a er having passed Mathematics: Mining and that students are employed in or on a mine. 5. STM121Q Statistics: Mining I 6. MSP101R Work integrated learning: Mine Survey Practice I PART 2 7. MEM2M1U MEMPRAC MEM2M2U Mineral Engineering Management II (3 Modules): Computer Literacy: Mineral II Computer Literacy: Mineral II Communication: Mineral II Mineral Engineering Management I (MEM101U) See requirements for IT related study units 8. MVA231Q Mine Valuation II Mineral Exploitation I (MEP171X) and Mine Survey Practice I (MSP101R) 9. MSG211Q Mine Survey II Mineral Exploitation I (MEP171X) and Mine Survey Practice I (MSP101R) 10. MGY291S Mining Geology II Mineral Exploitation I (MEP171X) 11. WIM241Q Mathematics: Mining II Mathematics: Mining I (WIM131U) 12. MSP242S Work integrated learning: Mine Survey Practice II PART MEM3M1Y MEM3M2Y Mineral Engineering Management III (2 Modules) Module A Module B Mineral Engineering Management II (MEM2M2Y) 14. MVA382Y Mine Valuation III Mine Valuation II (MVA231Q) and Statistics: Mining I (STM121Q) 15. MSG342S Mine Survey III Mine Survey II (MSG211Q) 16. STG381S Structural Geology III Mining Geology II (MGY291S) 17. MSP352T Work integrated learning: Mine Survey Practice III Work Integrated Learning: Mine Surveying A diploma is awarded to students who: have been registered for at least three years have passed all the study units in Parts 1, 2 and 3 (national diploma) have been employed in the survey department of a mine for a period of at least eighteen months have acquired an acceptable level of competence in the practical skills in mine surveying as detailed in the areas below. Work integrated learning is intrinsic to mine surveying. You will be required to acquire adequate exposure and practical skills in the following areas and as detailed in the mine surveying guide and logbook: Sampling (stopes and development) Valuation of stopes and development ends Measuring excavations (stopes, development and large excavations) Traversing (stopes, development and surface) Direction and grade lines (flat and steeply inclined development ends) Levelling (underground and surface) Constructing, planning and se ing out of development ends Sha surveys and layouts Resections, forward intersections and trilaterations Tape surveys Tacheometry Global Positioning Systems Draughting construction and updating of plans Pay limits and control factors Grade control Various reporting requirements Working knowledge of mining and geology departments Working knowledge of metallurgical and assaying processes

54 You must identify and register a suitable and willing qualified person as your mentor. Your mentor will coach and guide you through the required work integrated learning/work integrated learning as set out in the work integrated learning: in service training guide. Your practical expertise will be assessed on the successful completion of Parts 1, 2 and 3 before a national diploma will be issued. The assessment/ evaluation will be done by an expert from industry and the portfolio (checked by the mentor) will form the core of this assessment. NOTE: (A) (B) A log-book detailing the EXPECTED work integrated learning: requirements will be issued to you on registration for Mine Survey Practice I. Do not register for Mine Survey Practice I if you are not already employed on a mine Duration of the course and awarding of the diploma A national diploma is awarded if students have been registered for at least three years, passed all the study units of Parts 1, 2 and 3 and produced proof that they have been employed for a period of at least 18 months in the surveying department of a mine together with meeting the requirements of the 3 work integrated learning components. 1.2 National Diploma: Surface Mining (Programme Code: NDSMI) Admission requirements See admission requirements for the School of Engineering Aim of diploma To produce competent mining engineers whose responsibilities would include the selection and managing of the optimal mining process applicable to the relevant mineral deposit to be mined Career opportunities Mining remains one of the major role-players in the South African economy. It not only offers employment opportunities for the technically qualified person but also for the small business entrepreneur in mining and mining-related ventures Curriculum PART 1 1. WIM131U Mathematics: Mining I Mathematics Gr 12/N3./ Tertiary Preparation 2. SMI181Q Science: Mining I Science Gr 12/N3/Tertiary Preparation 3. MEM101U Mineral Engineering Management I 4. MEP171X Mineral Exploitation I Mathematics Gr 12/N3/ Tertiary Preparation It is recommended that this subject is a empted together with or a er having passed Mathematics: Mining and that students are employed in or on a mine 5. STM121Q Statistics: Mining I 6. SMR121Q Work integrated learning: Surface Mining Practice I PART 2 7. MEN251W Mine Engineering II Science: Mining I 8. SSV201S Surface Surveying & Valuation II Mineral Exploitation I (MEP171X) 9. MSU201S Mining: Surface II Mineral Exploitation I (MEP171X) 10. ASK131U Accounting Skills I MEM2M1U MEMPRAC MEM2M2U SMR230P PART 3 Mineral Engineering Management II (3 Modules) Computer Literacy: Mineral II Computer Literacy: Mineral II Communication: Mineral II Work integrated learning: Surface Mining Practice II Mineral Engineering Management I (MEM101U) See requirements for IT related study units 13. MGY291S Mining Geology II Mineral Exploitation I (MEP171X) 14. SSV301S Surface Surveying & Valuation III Surface Surveying & Valuation II (SSU201S) 15. MSU301S Mining: Surface III Mining: Surface II (MSU201S) 16. SME301S Surface Mining Equipment III MEM3M1Y MEM3M2Y SMR351Y Mineral Engineering Management III (Two modules) Module A Module B Work integrated learning: Surface Mining Practice III Mineral Engineering Management II (MEM2M2U) Workplace Integrated Learning: Surface Mining Work integrated learning is an integral part of this diploma and must cover a period of at least eighteen months. The diploma caters for persons who are employed or who are able to gain extensive exposure to one or more of the following categories of surface mining: (a) Quarrying/Dimension Stone Operations (b) Open Cast/ Strip Mining Operations (c) Open Pit Operations (d) Alluvial Mining Operations (e) Coastal Mining Operations 53

55 Areas students must be involved in or exposed to include the following: 1. Mining, i.e. Production or Winning of the basic material (where this is done by means of blasting, the obtaining of a blasting certificate is desirable). This activity must include, as appropriate, Making Safe, (Health and Safety), Cu ing, Drilling, Breaking, Loading, and Transportation. 2. You must be able to work in (or be comprehensively exposed to) the following departments or operations or obtain experience in related areas: 2.1 Surveying and Valuation 2.2 Geology 2.3 Engineering Workshops 2.4 Planning 2.4 Management (People and Resources) 2.6 Beneficiation 2.7 Environmental Management 3. Ideally you should be involved in mining-related project work. A copy of this should be included in your portfolio (Refer to point iii under work integrated learning). 4. You must be able to identify and register as your mentor, a suitably qualified person who will be able to coach and guide you through the requirements of work integrated learning: that is needed for this diploma. NOTE: (A) (B) (C) An in-service Training Guide and Log-book detailing the ideal work integrated learning requirements as well as a guide for mentors are sent to students when they enrol for the work integrated learning: subject. Please do not enrol for work integrated learning: if you are not employed on a mine or related operation, industry or activity where you can obtain adequate exposure to the above experiences. Unfortunately UNISA is not responsible to arrange work integrated learning: opportunities Duration of the course and awarding of the diploma A national diploma is awarded if the student has passed all the study units of Parts 1, 2 and 3 and submi ed proof of work integrated learning: as per requirements. 1.3 National Diploma: Mining Engineering (Programme code: NDMIN) Admission requirements See admission requirements for the School of Engineering Aim of diploma To produce competent mining engineers whose responsibilities would include the selection and managing of the optimal mining process applicable to the relevant mineral deposit to be mined Career opportunities Mining remains one of the major role-players in the South African economy. It not only offers employment opportunities for the technically qualified person but also for the small business entrepreneur in mining and mining-related ventures Curriculum PART 1 1. KVH171Y Communication Skills I 2. CPK151V Computer Skills I See note2. CPKPRAC Computer Skills I 3. MAT181Q Mathematics I Mathematics Gr 12/N3./ Tertiary Preparation 4. MEP171X Mineral Exploitation I Mathematics Gr 12/N3/ Tertiary Preparation. It is recommended that this subject is a empted together with or a er having passed Mathematics: Mining and that students are employed in or on a mine 5. QTC171R Quantitative Techniques I 6. SMI181Q Science: Mining I Science Gr 12/N3/Tertiary Preparation PART 2 7. ASK131U Accounting Skills I 8. CAD161S Computer Aided Draughting I 9. EWS121Q Engineering Work Study I 10. MAT291X Mathematics II Mathematics I 11. MED161Q Mechanical Engineering Drawing I 12. ENV301E Environmental Management III MPR101E MPR201E PART 3 Work integrated learning: Mining Engineering Practice I Mining Engineering Practice II This can be done at any stage, if you are employed by a mine. Relevant to the mine/operation where you are employed/ gain exposure. See information under heading work integrated learning: below. 13. MEN251W Mine Engineering II Science: Mining I 14. MGY291S Mining Geology II Mineral Exploitation I (MEP172X) 15. SAV231Y Mine Survey and Valuation II 16. EMA2M1E EMA2M2E Engineering Management II (Two modules) Module A Module B Mineral Exploitation I (MEP172X) 54

56 17. MBE201E Mineral Beneficiation II Mineral Exploitation I (MEP171X) 18. MIN201E Mining II Mineral Exploitation I (MEP171X) PART GMI351X Geology: Mining III Mining Geology II (MGY291S) 20. SAV301U Mine Survey and Valuation III 21. MTS351X Mining Technical Services III 22. EMA301E Engineering Management III Mine Survey and Valuation II (SAV231Y) Engineering Management II (EMA2M1E) 23. MIN301E Mining III Mining II (MIN201E) 24. MIE301E Mine Engineering III Mine Engineering II (MEN251W) NOTES 1. This diploma is the entrance qualification to the BTech: Mining Engineering. 2. Both modules must be completed to obtain credit for this course. Modules can be completed concurrently or in different years. Access to a personal computer is compulsory for the Practical. See Calendar Part 2 for detailed instruction on the Practical Work integrated learning: Mining Engineering Work integrated learning is an integral part of this diploma and must cover a period of at least twelve months. The exposure obtained should be in accordance with the relevant mining operation and could be as follows: A B IN THE CASE OF AN UNDERGROUND HARD ROCK MINE Basic underground mining which is the introduction to competencies involved in production activities and should include aspects of the Basic Mining Cycle, Supporting, Making Safe, Marking, Drilling, Charging Up, Blasting and Loading (Cleaning). These activities must be for both Stoping and Development and include general and construction work and should culminate in obtaining a Blasting Certificate. IN THE CASE OF AN UNDERGROUND COAL MINE 1. Basic Underground Mining is the introduction to competencies involved in production activities and should include all aspects of the Basic Mining Cycle, Supporting, Making Safe, Cu ing, Drilling, Charging Up, Blasting and Loading. 2. These activities must be carried out in a normal production section and in a development section. They must include general and construction work and should culminate in obtaining a Blasting Certificate for Fiery Mines. 3. Ideally you should carry out the actual work done by a miner in: 3.1 Bord and pillar Mining 3.2 Pillar Extraction 3.3 Longwall Mining 3.4 Mechanised Continuous Mining or any other underground coal production method used at your mine. C IN THE CASE OF OTHER MINING OPERATIONS FOR EXAMPLE: (a) (b) (c) (d) (e) Quarrying/Dimension Stone Operations Open Cast/ Strip Mining Operations Open Pit Operations Alluvial Mining Operations Coastal Mining Operations Areas of involvement and exposure should include the following: Mineral Extraction, i.e. Production or Winning of the basic material (where this is done by means of blasting, the obtaining of a blasting certificate is desirable). This activity must include, as appropriate, Making Safe, (Health and Safety), Cu ing, Drilling, Breaking, Loading, and Transportation General In any of the above or combination of the above broad categories of mines: You should be able to work in (or be comprehensively exposed to) all or the majority of the following generic components in the operation of the mine/operation or obtain experience in related areas where applicable: 1. General construction work 2. Technical and engineering services 3. Environmental control 4. Supervision 5. Safety and health 6. Survey or sampling 7. Geology 8. Treatment plant 9. Engineering 10. Mine planning At the end of the practical phase it would be expected that you, the student, could confidently be put in charge of a gang of workmen in a mining production environment and for you to safely and knowledgeably carry out effective production activities. Ideally you should be involved in mining-related project work. A copy of such a project should be included in your work integrated learning: portfolio (Refer to point iii under work integrated learning:). You must be able to identify and register as your mentor, a suitably qualified person, who will be able to coach and guide you through the requirements of work integrated learning: that is needed for this diploma. NOTE: (A) (B) (C) An in-service Training Guide and Log-book detailing the ideal work integrated learning requirements as well as a guide for mentors are sent to students when they enrol for the work integrated learning: subject. Please do not enrol for work integrated learning if you are not employed on a mine or related operation where you can obtain exposure to the above experiences. Unfortunately UNISA is not responsible to arrange work integrated learning opportunities Duration of the course and awarding of the diploma A national diploma is awarded if the student has passed all the study units of Parts 1, 2, 3 and 4 and submi ed proof of work integrated learning as per requirements. 55

57 2. National Instructional Programmes: Engineering 2.a Medium of instruction PLEASE NOTE: The examination papers for most of the study units will be available in English only. This will apply to those study units where the course material and tutorial le ers are available in English only. 2.b Availability of study units Study units marked with an asterisk (*) or a question mark (?) are currently being developed and were not available when this calendar went to press. However, the study material may become available during the year. Students are therefore requested to enquire about the availability, should such a subject be required. 2.c Exit levels A fee is payable for the issue of the certificates. Candidates do not qualify automatically for the issuing of a national certificate or national higher certificate. 2.d Requirements for Information Technology related study units Computer facilities are prerequisites for students enrolling for any of the Information Technology related study units. Students must have access to computer facilities or have their own computer with the specific so ware they will require. Use the following as a guideline to ensure that you have the minimum computer configuration (or higher): an IBMTM compatible machine using a Windows 2000/NT/XP operating system. 20GB harddisk drive 128MB RAM Colour SVGA screen with 4MB controller A mouse Stiffy drive CD-ROM drive (54 speed)/ DVD drive Printer (Deskjet or Laser Printer) Access to facilities and occasional Internet accesses on first year level Access to and Internet facilities on higher levels Please note that less than the mentioned minimum configuration will not be sufficient. 2.1 National Diploma: Engineering: Chemical (Programme code: NDENG) Admission requirements See admission requirements for the School of Engineering Aim of diploma Chemical engineering is concerned with the manufacturing of chemicals on an industrial scale as well as with the industrial processes that convert raw materials into products that have higher economic value. In a particular manufacturing environment, there is usually a chemical engineering team. This team is usually led by a degreed Chemical Engineer, usually assisted by a Chemical Engineering Technologist or a Chemical Engineering Technician. They all obtain their qualifications from a university of technology or a university. The technologist has obtained a BTech degree and the technician a National Diploma. The team is qualified to research, develop, design, construct and operate the plants required to make any processed product Career opportunities Chemical engineering is applied in most major industries, e.g. petrochemical, food and beverage, paper, textiles, mineral processing, coal, water treatment and power generation Curriculum PART 1 1. MAT181Q Mathematics I Mathematics Gr12/N3 /Tertiary Preparation 2. CPK151V Computer Skills I See Note 2 CPKPRAC Computer Skills I 3. DCE131G Drawing: Chemical Engineering I 4. KVH171Y Communication Skills I 5. CHE181T CHE1PRA Chemistry I Chemistry I See Note 1 6. FIC181C FIC1PRA PART 2 Physics I Physics I See Note 1 7. MAT291X Mathematics II Mathematics I 8. CEM211F Chemical Engineering Technology II Chemistry I See Note 1 CEM2PRA Chemical Engineering Technology II 9. CPI271Y Chemical Process Industries II Chemistry I 10. INC251U INC2PRA 11. ORC221F ORC2PRA 12. PCH241P PCH2PRA 13. ENP291Q ENP2PRA Inorganic Chemistry II Inorganic Chemistry II Organic Chemistry II Organic Chemistry II Physical Chemistry II Physical Chemistry II Engineering Physics II Engineering Physics II Chemistry I See Note 1 Chemistry I See Note 1 Chemistry I See Note 1 Physics I See Note 1 56

58 PART MSA1M1U Management Skills I (Module A) 15. CEM311A Chemical Engineering Technology III (Module A) CEM3PRA Chemical Engineering Technology III (Module A) 16. CHP311A Chemical Plant III (Module A) Chemical Engineering Technology II See Note 1 Chemistry I 17. PCT381H Process Control III Mathematics II 18. TDC341P Thermodynamics: Chemical Engineering III 19. CEP101E Work integrated learning: Chemical Engineering Practice I PART MSA1M2U Management Skills I (Module B) 21. CEM321B Chemical Engineering Technology III (Module B) CEM3PRB Chemical Engineering Technology III (Module B) 22. CHP321B Chemical Plant III (Module B) 23. CPD371S Chemical Process Design: Principles III 24. TDA331V Thermodynamics: Applied III 25. CEP201E Work integrated learning: Chemical Engineering Practice II CO-REQUISITE STUDY UNITS SUBJECT (SUBJECT ) Chemical Engineering Technology III (Mod B) (CEM321B) Chemical Process Design: Principles III (CPD371S) CEP201E Physical Chemistry II See Work integrated learning below. Technology II and 9 other subjects from Parts 1 and 2 Chemical Engineering Technology III (Mod A) See Note 1 Chemical Engineering Technology III (Mod A) See Work integrated learning. All part 3 study units CO-REQUISITE SUBJECT Chemical Engineering Technology III (Mod A) (CEM311A) Chemical Engineering Technology III (Mod A) (CEM311A) CEP101P Practical and theoretical components of the same subject are co-requisite study units. NOTES 1. The practical component of these study units is compulsory. Registration of the practical component is done at UNISA. The practical component must be done at other institutions such as Vaal University of Technology, Durban University of Technology and Cape Peninsula University of Technology, offering the same courses. If the student decides to do the practical component at these institutions. Then UNISA will make the necessary arrangements and then pay the costs involved. Both the theoretical and the practical component of the subject must be passed before credit for the subject can be obtained. The practical component must be done simultaneously or a er the theoretical component. 2. Both modules must be completed to obtain credit for this course. Modules can be completed concurrently or in different years. Access to a personal computer is compulsory for the Practical. See Calendar Part 2 for detailed instruction on the Practical. 3. All study materials and examination papers (except Mathematics III) are available only in English Work integrated learning: Engineering: Chemical WORK INTEGRATED LEARNING: Work integrated learning: is an integral part of the National Diploma: Chemical Engineering. You must be employed or have a placement in a chemical engineering industry for a period of a year in order to register for the two work integrated modules. Work integrated learning is done with an accredited company or at a chemical engineering related workplace. Chemical Engineering Practice has two parts namely Chemical Engineering Practice I and Chemical Engineering Practice II. Each Chemical Engineering Practice module is six months relevant work integrated learning and is monitored by means of a log-book and mentor system. Only students who are graduating at Unisa can register for these two modules. 1. CO-REQUISITES CEP101E Chemical Engineering Practice I: Prerequisite: Successful completion of Technology II and 9 other subjects from Parts 1 and 2 CEP201E Chemical Engineering Practice II: Prerequisite: Successful completion of all of the Part 3 study units. These two modules can be taken in the same year. 2. SUGGESTED CURRICULA CEP101E Chemical Engineering Practice I: Listed in the table below are topics from which the student and his/ her mentor/training manager, in consultation with the Chemical Engineering representative, can draw up a training programme to make up the required 24 weeks of work integrated learning: in the Chemical Engineering field of study: ITEM TOPICS TO BE COVERED NO 1 Safety training as required for the specific work station 2 Process monitoring: Taking readings and entering logsheets Monitoring readings against standard operating conditions Assisting in instrument calibrations Tasks as required for good housekeeping 3 Laboratory work concerning quality control such as: Routine distillations Specific gravities Viscosities Ash and moisture determination Titrations and saponification numbers Gas analysis 4 Flow diagrams of plants, piping systems symbols and specifications 5 Elementary mass balances 6 The application of some of the theory principles given in the S1 and S2 study units 7 Report writing 57

59 CEP201E Chemical Engineering Practice II: Listed in the table below are topics from which the student and his/her mentor/training manager, in consultation with the Unisa representative, can draw up a training program to make up the required 24 weeks for the second part of work integrated learning: in the Chemical Engineering field of study: ITEM TOPICS TO BE COVERED NO. 1 Plant operations and troubleshooting (compulsory): Mastering basic operating skills, e.g. ensuring safe conditions and then operating valves, starting motors, turbines, pumps, compressors, conveyors, etc. Handling of equipment specific to the operation concerned Partaking in project work in order to understand the specific nature of projects, e.g. design of piping systems, optimization of processes; troubleshooting projects. Loss control: Loss control inspections; safety inspections; quality audits 2 Management: Exposure to elements of: Financial management, i.e. ROI calculations and depreciation Human resources, i.e. planning for and application of HR; industrial relations 3 Overall material balance of plant or part thereof 4 Energy balance 5 Schematic diagrams of unit operations 6 Analysis of design. This may include checking someone else s calculations 7 Determination of power requirements for pumps, mixers, etc. 8. Environmental Assessment 3. INFORMATION For more information please contact the Unisa Contact Centre: Duration of course A minimum of three years. The national diploma will be awarded a er all the prescribed study units have been passed and the work integrated learning: has been completed successfully. 2.2 Baccalaureus Technologiae: Engineering: Chemical (Programme code: BTENC) Admission requirements One of the following : (i) National Diploma: Engineering: Chemical ( S diploma: Four semesters technikon training plus two semesters in-service training); OR (ii) National Diploma: Chemical Engineering ( T-3 diploma: three semesters technikon training plus three semesters in-service training) PLUS the following four bridging study units: Process Control III (PCT381H) Chemical Engineering Technology III (Module B) (CEM321B and CEM3PRB) Thermodynamics: Chemical Engineering III (TDC341P) Chemical Process Design: Principles III (CPD371S) OR (iii) National Higher Diploma: Chemical Engineering (T4) PLUS the following bridging subject: Process Control III (PCT381H), which is the prerequisite for PCT401C Aim of degree Please refer to the National Diploma: Engineering: Chemical Curriculum 1. MCE301C Mathematics: Chemical Engineering III 2. CEM4M1C Chemical Engineering Technology IV : Fluid Flow (Module A) 3. CEM4M2C Chemical Engineering Technology IV: Heat and Mass (Module B) 4. CEM4M3C Chemical Engineering Technology IV: Unit Operations (Module C) 5. CPD4M1C Chemical Process Design IV : Equipment Design (Module A) Chemical Engineering Technology IV(Module C) 6. CPD4M2C Chemical Process Design Chem. Engineering IV: Plant Design (Module Technology IV (Mod C) B) See Note 2 7. PCT401C Process Control IV (Chemical) 8. PCI401C Production Engineering: Chemical Industry IV 9. RTE401C Reactor Technology IV 10. PCE401C Project: Chemical Engineering IV Mathematics: Chemical Eng. III and Process Control III See Note ENT401I Entrepreneurship IV Subject is optional but recommended 12. CHE4PRA Chemical Engineering IV NOTES Reactor Technology IV and Process Control IV. See note 4 1. IMPORTANT: Students may only register for the BTech: Engineering: Chemical if he/she: (i) can identify and complete a research project for PROJECT: CHEMICAL ENGINEERING IV (PCE401C); (ii) has access to a computer simulation design programme/ package for CHEMICAL PROCESS DESIGN IV : PLANT DESIGN (Module B) such as ASPEN, CHEMCAD, PROII, etc.; (iii) can provide a mentor for each of the above study units respectively. It is the responsibility of the student to find these elsewhere. 2. CHEMICAL PROCESS DESIGN IV: PLANT DESIGN (Module B): No formal wri en examination - design to be handed in and an oral presentation. It is the responsibility of the student to find access to the design packages such as CHECAD or ASPEN, which is necessary for this subject. If you don t have access to the above packages, please contact or before registering for this subject. 3. PROJECT: CHEMICAL ENGINEERING IV: No formal wri en examination. Industrial project to be handed in. It is the responsibility of the student to find a suitable project title from industry. If you are not employed at the chemical industry, please contact or before registering for this subject.

60 4. This subject is the practical component of the BTech. It is compulsory and offered at two different institutions, namely Durban University of Technology and Vaal University of Technology. Students have to pass this subject before their graduation. 10. WTC401C Water Treatment (Chemical) IV CO-REQUISITE STUDY UNITS SUBJECT (SUBJECT ) Chemical Process Design IV (Mod B) (CPD4M2C) Chemical Engineering IV (CHE4PRAC) CO-REREQUISITE STUDY UNITS Chemical Process Design IV (Module A) (CPD4M1C) Reactor Technology IV (RTE401C) & Process Control IV (PCT401C) 2.3 Baccalaureus Technologiae: Engineering: Chemical (Environmental) (Programme code: BTECE) Admission requirements National Diploma: Engineering: Chemical or an equivalent qualification Aim of degree This degree primarily focuses on the planning, design and operation of technological processes in the Chemical engineering industry. The aim is to equip students with a chemical engineering background with the relevant knowledge to effectively design and operate chemical plants with due consideration to the environmental impact Curriculum 1. CEM4M2C Chemical Engineering Technology IV: Heat and Mass (Module B) 2. CEM4M3C Chemical Engineering Technology IV: Unit Operations (Module C) 3. CPD4M1C Chemical Process Design IV : Equipment Design (Module A) Chemical Engineering Technology IV(Module C) 4. CPD4M2C Chemical Process Design Chem. Engineering IV: Plant Design (Module Technology IV (Module B) C) 5. RTE401C Reactor Technology IV 6. CEE401C Chemical Environmental Engineering IV (Project) 7. AQC401C Air Quality Control (Chemical) IV 8. EMC401C Environmental Management for Chemical Engineers IV 9. SWT401C Solid Waste Treatment (Chemical) IV See note 1 Co-requisite: Air Quality Control (Chemical) IV or Solid Waste Treatment (Chemical) IV or Waste Treatment (Chemical) IV NOTE 1. Chemical Environmental Engineering IV (Project): No wri en examination - project to be handed in; oral evaluation. 2 Chemical Process Design IV: Plant Design (Module B): No formal wri en examination design to be handed in and an oral presentation. It is the responsibility of the student to find access to the design package such as CHECAD or ASPEN, which is necessary for this subject. If you don t have access to the above package, please contact or before registering for this subject. 3 Project: Chemical Engineering IV: No formal wri en examination. Industrial project to be handed in. It is the responsibility of the student to find a suitable project title from the industry. If you are not employed in the chemical industry, please contact or before registering for this subject. 2.4 Magister Technologiae: Engineering: Chemical (Programme code: MTENC) Admission requirements 1. Baccalaureus Technologiae: Engineering: Chemical, OR an equivalent qualification; and 2. An instructional offering in Research Methodology (can be taken concurrently with MTech) Aim of qualification To apply integrated technical knowledge/skills and advanced analysis and problem solving to a particular specialised research area in Chemical Engineering Duration of course The minimum duration of this course is one year full-time. Students doing this course part-time should complete it in the minimum of two years. The MTech programme comprises a thesis only, provided the student has already passed an instructional offering in research methodology. In the thesis the student must prove that he/she understands a particular problem in the industry in which research has been done, is able to analyse and set it out logically, is able to arrive at a logical conclusion or diagnosis, and is then able to make proposals for the improvement/the elimination of the problem. The thesis must comply with the normal general technical requirements and rules with regard to scope, quality and layout Selection criteria Students are selected only if there is a supervisor in that specific field of study Curriculum REN401M Research Methodology * REC501M Thesis** 59

61 NOTES * RESEARCH METHODOLOGY is compulsory, and must be taken and passed in the first year of study. An equivalent offering in research methodology already passed at another higher education institution, can be accredited. ** A press-ready subject-related article based on the study of the MTech: Engineering: Chemical must be submi ed at the same time as the dissertation for purposes of publication Application procedures 1. All applicants must supply the following: Completed application form Certified copies of certificates, diploma, etc. Certified copies of marks obtained in the highest qualification 2. Students whose applications have been approved by the Chair of Department will be registered provisionally. They must then prepare a research theme and proposal in consultation with (a) study leader/s. No students will be allowed to commence their studies until they have been officially authorised to do so. 3. Forward your application to: Chair of Department Civil and Chemical Engineering UNISA Private Bag X FLORIDA 2.5 National Diploma: Pulp And Paper Technology (Programme code: NDPPT) Admission requirements 9. PTL101P Pulp and Paper Technology I 10. PCY201P Pulp and Paper Chemistry II 11. PCH241P PCH2PRA 12. ENP291Q 13. ENP2PRA PUP101P PART 3 Physical Chemistry II Physical Chemistry II Engineering Physics II Engineering Physics II Work integrated learning: Pulp and Paper Practice I 14. MSA1M1U Management Skills I (Module A) 15. CEM311A Chemical Engineering Technology III (Module A) CEM3PRA Chemical Engineering Technology III (Module A) 16. CHP311A Chemical Plant III (Module A) 17. PTL201P Pulp and Paper Technology II 18. PUP201P PART 4 Work integrated learning: Pulp and Paper Practice II Chemistry I Chemistry I See Note 1 Physics I See Note 1 Chemical Engineering Technology II See Note 1 Chemistry I Pulp and Paper Technology I Completion of 10 subjects in Parts 1 and 2 See admission requirements for the School of Engineering Curriculum PART 1 1. MAT181Q Mathematics I Mathematics Gr12/N3 /Tertiary Preparation 2. CPK151V Computer Skills I See Note 2 CPKPRAC Computer Skills I 3. KVH171Y Communication Skills I 4. CHE181T CHE1PRA Chemistry I Chemistry I See Note 1 5. FIC181C FIC1PRA Physics I Physics I 6. IPM101P Introduction to Pulp and Paper Making I See Note MSA1M2U Management Skills I (Module B) 20. CEM321B Chemical Engineering Technology III (Module B) CEM3PRB Chemical Engineering Technology III (Module B) 21. CHP321B Chemical Plant III (Module B) 22. PTL301P Pulp and Paper Technology III 23. PCY301P Pulp and Paper Chemistry III* 24. TDA331V Thermodynamics: Applied III 25. Work integrated learning: PUP301P Pulp and Paper Practice III NOTES Chemical Engineering Technology III (Mod A) See Note 1 Pulp and Paper Technology II Pulp and Paper Chemistry II Prerequisite: PUP101P, PUP201P PART 2 7. QUT151Z Qualitative Techniques I 8. CEM211F CEM2PRA Chemical Engineering Technology II Chemical Engineering Technology II Chemistry I (Theory & Practical) See Note 1 1. The practical component of these study units is compulsory. Registration of the practical component is done at UNISA. The practical component must be done at other institutions such as Vaal Institute of Technology, Durban University of Technology and Cape Technikon, offering the same courses. If the student decides to do the practical component at these institutions. Then UNISA will make the necessary arrangements and pay the costs involved. Both the theoretical and the practical component of the subject must be passed before credit for the subject can be 60

62 obtained. The practical component must be done simultaneously or a er the theoretical component. 2. Both modules must be completed to obtain credit for this course. Modules can be completed concurrently or in different years. Access to a personal computer is compulsory for the Practical. See Calendar Part 2 for detailed instruction on the Practical Work integrated learning: Pulp and Paper WORK INTEGRATED LEARNING: Work integrated learning: is an integral part of the National Diploma: Pulp and Paper. You must be employed or have a placement in a pulp and paper industry for a period of a year in order to register for the three work integrated modules. Work integrated learning: is done at a Pulp and Paper industry. It has three parts namely Pulp and Paper Practice I, Pulp and Paper Practice II and Pulp and Paper Practice III. Each Practice module is four months relevant work integrated learning: and is monitored by means of a logbook and mentor system. 2.6 National Diploma: Engineering: Civil (Programme code: NDECI) Admission requirements See Admission requirements for the School of Engineering Aim of diploma To train a Civil Engineering Technician with sufficient academic knowledge and practical experience to plan, design construct and manage projects in the Civil Engineering field Career opportunities Civil engineering provides career opportunities in the fields of Transportation, Water, Structural, Geotechnical, Construction Management, Urban and Environmental engineering Curriculum PART 1 1. MAT181Q Mathematics I 2. SRV121Q SRV1PRA Surveying I Surveying I See Note 2 See Note 3 3. DRW111X Drawing I See Note 1 4. KVH171Y Communication Skills I 5. AMC141R AMC1PRA Applied Mechanics I Applied Mechanics I See Note 3 6. CPK151V CPKPRAC PART 2 7. CMT101C CMT1PRA Computer Skills I Computer Skills I Construction Materials I Construction Materials I See Note 1 See Note 3 8. MAT291X Mathematics II MAT181Q 9. CMD101C Construction Methods I 10. MCL191S Management: Civil I 11. DRW221Y Drawing II DRW111X 12. TST271Z TST2PRA Theory of Structures II Theory of Structures II AMC141R, AMC1PRA See Note SRC211Q SRC2PRA Surveying: Civil II Surveying: Civil II SRV121Q, SRV1PRA See Note 2 See Note 3 PART MCL221S Management: Civil II MCL191S 15. SAN271Z Structural Analysis II TST271Z 16. TPE211C TPE2PJT Transportation Engineering II Transportation Engineering II (Project) Co-requisite: SRC211Q, SRC2PRA See Note 1 See Note WEN221R WEN2PRA Water Engineering II Water Engineering II AMC141R See Note GTE281Q Geotechnical Engineering II GTE2PRA Geotechnical Engineering See Note 3 II 19. RCD301C RCD3PJT Reinforced Concrete and Masonry Design III Reinforced Concrete and Masonry Design III (Project) SAN271Z See Note PEC201C PART DCM371Y DCM3PJT Work Integrated Learning: Engineering Practice: Civil II Documentation III Documentation III (Project) All study units in parts 1 and 2 See Note 5 See Note SAN341H Structural Analysis III SAN271Z 23. SSD301C SSD3PJT Structural Steel and Timber Design III Structural Steel and Timber Design III (Project) SAN271Z See Note 4 61

63 TPE381V TPE3PRA 25. WEN361F WEN3PRA WEN3PJT 26. GTE331Q GTE3PRA Transportation Engineering III Transportation See Note 3 Engineering III Water Engineering III Water Engineering III Water Engineering III (Project) WEN221R, WEN2PRA See Note 3 See Note 4 Geotechnical Engineering GTE281Q, GTE2PRA III Geotechnical Engineering See Note 3 III 27. PEC301C Work Integrated Learning: Engineering Practice: Civil III NOTES All study units in parts 1, 2 and 3 See Note 5 1. COMPUTER PRACTICAL STUDY UNITS Both modules must be completed to obtain credit for this course. Modules can be completed concurrently or in different years. Access to a personal computer is compulsory for the Practical. See Calendar Part 2 for detailed instruction on the Practical. 2. SURVEYING CIVIL I (PRACTICAL) Students must register simultaneously for both Surveying I SRV121Q and Surveying I SRV1PRA. Owing to the logistical constraints in presenting the practical workshop, the maximum number of students that may register for Surveying I in any year is capped at 360 students. Therefore, first choice to admi ance will be given to those students who enrol or a minimum of two (2) subjects simultaneously at National Diploma level. The week-long practical workshop for Surveying I is presented in conjunction with the Tshwane University of Technology (TUT) at their Toppieshoek facility near Hartebeespoort Dam in Gauteng. A endance is compulsory and an a endance fee is directly payable to TUT since students must stay on the premises for the week. Additional fess will be required when registering for the workshop practical at TUT. For further information contact the Call Centre. 3. PRACTICAL STUDY UNITS The students must register for the practicals and the theory components simultaneously unless a credit for any component has been approved by Unisa. Both the practical component and the theory component must be passed to obtain full credit for the study unit. 4. PROJECT STUDY UNITS The students must register for the project and the theory components simultaneously unless a credit for any component has been approved by Unisa. Both the project component and the theory component must be passed to obtain full credit for the study unit. 5 WORK INTEGRATED LEARNING: ENGINEERING: CIVIL It is required that students wishing to enrol for Engineering Practice: Civil II PEC201C must have completed all study units in Parts 1 and 2. A minimum of 4 subjects from Part 3 have to be registered simultaneously with PEC201C. If less subjects are outstanding, then the balance must be selected from Part 4. Engineering Practice: Civil II PEC201C will be assessed once the student has completed Part 3. Students enrolling for Engineering Practice: Civil III PEC301C must have completed all study units for Parts 1, 2 and 3. In case a student has completed Parts 1, 2 and 3 he/she may enrol simultaneously for both PEC201C and PEC301C. Engineering Practice: Civil III PEC301C will be submi ed for assessment once the student has completed study units in Part 4. Students enrolling for Engineering Practice: Civil III PEC301C should have completed all study units for Parts 1, 2 and 3. Suggested work integrated learning (WIL) curricula For a student to be considered as having met the minimum requirements to have passed the Work Integrated Learning courses, they are required to have obtained formal practical experience in a Civil Engineering related work environment for a period of at least twelve months. The training programme will be agreed to by the student and his mentor at the beginning of the work integrated learning: period. The work integrated learning programme must include the following four practical experience phases as required by the Engineering Council of South Africa (ECSA): (a) (b) (c) (d) Planning experience Design experience Contracts experience Construction experience A minimum of six months work integrated learning for Engineering Practice: Civil II and a minimum of six months work integrated learning for Engineering Practice: Civil III under the supervision of a qualified supervisor in the four practical experience fields. All work must be certified by a mentor, who must be a professional engineer, registered with the Engineering Council of South Africa (ECSA). In exceptional cases a student may apply to gain experience under a non-registered mentor; however, proof of competence to carry out the mentoring must accompany the application. The Training Plan should aim to distribute the time evenly among the four practical experience fields. The following four practisal experience phase must be done as follows: For Engineering Practice: Civil II (PEC201C) Planning stage of a project Construction stage of a project For Engineering Practice: Civil III (PEC301C) Design stage of a project Contracting stage of project Prior work experience will count towards the Work Integrated Learning. One should not repeat the prerequisite experience that has been gained previously. However, a portfolio of evidence (POE) needs to be submi ed in a form of required reports in accordance with the study guide for a specific engineering Practice (i.e. Civil II and Civil III). 6 DURATION OF COURSE A minimum period of three years. The national diploma will be awarded a er all the prescribed study units have been passed and the work integrated training has been completed successfully. 7 NOTE In the event of prerequisite subject results being delayed in formalisation, permission can be obtained from the department for provisional registration. 2.7 Baccalaureus Technologiae: Engineering: Civil (Programme code: BTECV) Admission requirements One of the following: (i) National Diploma: Engineering: Civil (S4) (ii) National Higher Diploma in Civil Engineering (T4)

64 Students with a National Diploma (T3) in Civil Engineering must do bridging study units. Documentation III Choose three of the following four study units: Structural Analysis III Transportation Engineering III Water Engineering III Geotechnical Engineering III Aim of qualification To train Civil Engineering Technologists for specialisation in a particular field of Civil Engineering, e.g. Transportation, Water, Geotechnical, Construction Management, Urban and Environmental Engineering Curriculum Compulsory for all the BTech Civil Engineering Options: EEN4M1C EEN4PJA EEN4M2C EEN4PJB Environmental Engineering: Civil IV: Module A Environmental Engineering: Civil IV: Module A (Project) Environmental Engineering: Civil IV: Module B* Environmental Engineering: Civil IV: Module B* (Project) Choose ONE of the following BTech options: Compulsory Co-requisite: EEN4M2C See Note 2 Co-requisite: EEN4M1C See Note 2 A. TRANSPORTATION ENGINEERING (Spec code: TRA) This option is suspended from No new students will be allowed to register for this option. Students already registered for this option will be allowed to complete the required modules by the end of APT401C APT4PJT 2. PVT401C PVT4PJT 3. TRE401C TRE4PJT 4. TRP401C TRP4PJT 5. GDS401C GDS4PJT Asphalt Technology IV * Asphalt Technology IV (Project)* Pavement Technology IV Pavement Technology IV (Project) Traffic Engineering IV * Traffic Engineering IV (Project)* Transportation Planning IV * Transportation Planning IV (Project)* Geometric Design IV Geometric Design IV (Project) See Note 3 See Note 2 See Note 2 See Note 2 See Note 2 See Note 2 B. WATER ENGINEERING (Spec. code: WAT) (See Programme Structure All options) 1. HDL401C Hydraulics IV HDL4PJT Hydraulics IV (Project) See Note 2 2. HDG401C Hydrology IV HDG4PJT Hydrology IV (Project) See Note 2 3. RDM401C RDM4PJT Reticulation Design and Management IV Reticulation Design and Corequisite: HDL401C See Note 2 Management IV (Project) 4. WWT401C WWT4PJT Waste Water Treatment Technology IV Waste Water Treatment See Note 2 Technology IV (Project) 5. WTT401C WTT4PJT Water Treatment Technology IV Water Treatment Technology IV (Project) See Note 2 C. STRUCTURAL ENGINEERING (Spec. code: STR) (See Programme Structure All Options) 1. SAN401C Structural Analysis IV 2. SMD401C Structural Masonry Design IV SMD4PJT Structural Masonry See Note 2 Design IV (Project) 3. SSD401C Structural Steel Design IV SSD4PJT Structural Steel Design See Note 2 IV (Project) 4. TST401C Theory of Structures IV 5. FEN401C Foundation Engineering IV FEN4PJT Foundation Engineering See Note 2 IV (Project) 6. RCD401C RCD4PJT Reinforced Concrete Design IV Reinforced Concrete Co-requisite: CNT401C See Note 2 Design IV (Project) 7. CNT401C CNT4PRA CNT4PJT Concrete Technology IV Concrete Technology IV Concrete Technology IV (Project) See Note 3 See Note 1 See Note 2 D. GEOTECHNICAL ENGINEERING (Spec code: GEO) This option is suspended from No new students will be allowed to register for this option. Students already registered for this option will be allowed to complete the required modules by the end of HGE301C HGE3PJT 2. CMT401C CMT4PJT Hydrogeology III * Hydrogeology III (Project)* Construction Materials Technology IV Construction Materials Technology IV (Project) See Note 2 See Note 3 See Note 2 63

65 3. GCV401C GCV4PJT 4. EDS401C EDS4PJT 5. FEN401C FEN4PJT Geology: Civil IV * Geology: Civil IV (Project)* Earthworks Design IV * Earthworks Design IV (Project)* Foundation Engineering IV Foundation Engineering IV (Project) See Note 2 See Note 2 See Note 2 E. CONSTRUCTION MANAGEMENT (Spec. cde: COM) (See Specific programme structure Construction Management) 1. MPP401C Management Principles Compulsory and Practice IV 2. HRC401C Human Resources Compulsory Management: Civil IV 3. CMC401C CMC4PJT Contract Management: Civil IV Contract Management: Compulsory See Note 2 Civil IV (Project) 4. PJM401C Project Management: Compulsory Civil IV Choose ONE of the following study units: 5. FNM301C Financial Management III 6. PME361V Principles of Management Economics III 7. IRN201C Industrial Relations and Negotiation II 8. CLC1M1C CLC1M2C Commercial Law: Civil (Module A) Commercial Law: Civil (Module B) F. URBAN ENGINEERING (Spec. code: URB) (See Programme structure all options) 1. UPD401C UPD4PJT 2. CMT401C CMT4PJT 3. PVT401C PVT4PJT 4. RDM401C RDM4PJT 5. SWM401C SWM4PJT 6. GDS401C GDS4PJT Urban Planning and Design IV Urban Planning and See Note 2 Design IV (Project) Construction Materials See Note 3 Technology IV Construction Materials See Note 2 Technology IV (Project) Pavement Technology IV Pavement Technology IV See Note 2 (Project) Reticulation Design and Co-requisite: HDL401C Management IV See Note 2 Reticulation Design and Management IV (Project) Solid Waste Management IV Solid Waste Management See Note 2 IV (Project) Geometric Design IV Geometric Design IV See Note 2 (Project) G. ENVIRONMENTAL ENGINEERING (Spec. code: ENV) (See specific programme structure Environmental Engineering) 1. EEN4M1C EEN4PJA EEN4M2C EEN4PJB 2. SNS4M1C SNS4PJA SNS4M2C SNS4PJB Environmental Engineering: Civil IV: Module A Environmental Engineering: Civil IV: Module A (Project) Environmental Engineering: Civil IV: Module B* Environmental Engineering: Civil IV: Module B* (Project) Social Environmental Studies: Civil IV: Module A Social Environmental Studies: Civil IV: Module A (Project) Social Environmental Studies: Civil IV: Module B Social Environmental Studies: Civil IV: Module B (Project) Choose all THREE of the following study units: 3. SWM401C SWM4PJT Solid Waste Management IV Solid Waste Management See Note 2 IV (Project) 4. WWT401C Waste Water Treatment Technology IV WWT4PJT Waste Water Treatment See Note 2 Technology IV (Project) 5. WTT401C Water Treatment Technology IV Water Treatment See Note 2 WTT4PJT Technology IV (Project) Compulsory Co-requisite: EEN4M2C See Note 2 Co-requisite: EEN4M1C See Note 2 Compulsory Co-requisite: SNS4M2C See Note 2 Co-requisite: SNS4M1C See Note 2 * Check the availability of these study units before registration. NOTES 1. PRACTICAL STUDY UNITS The students must register for the practical and the theory components simultaneously unless a credit for any component has been approved by Unisa. Both the practical component and the theory component must be passed to obtain full credit for the study unit. 2. PROJECT STUDY UNITS The students must register for the project and the theory components simultaneously unless a credit for any component has been approved by Unisa. Both the project component and the theory component must be passed to obtain full credit for the study unit. 3. CONSTRUCTION MATERIALS TECHNOLOGY IV This subject may not be taken in combination with Concrete Technology IV and/or Asphalt Technology IV Programme structure all options 1. A total of eight (8) study units must be taken. 64

66 2. Environmental Engineering: Civil IV (Modules A and B) is compulsory for all the options. 3. At least five (5) study units must be taken from the selected BTech option and at least four (4) study units must be on level IV Specific programme structure Construction Management 1. The following study units are compulsory for the Construction Management option: Management Principles and Practice IV Human Resource Management: Civil IV Contract Management: Civil IV Project Management: Civil IV 2. Choose any one (1) of the remaining study units from the Construction Management option. 3. Choose one (1) study unit from the other BTech: Engineering: Civil options. 4. An extended period of experience to enhance the applicant s engineering competency is required for ECSA registration Specific programme structure Environmental Engineering 1. The following study units are compulsory for the Environmental Engineering option: Environmental Engineering (Civil) IV: Module A Environmental Engineering (Civil) IV: Module B Social Environmental Studies (Civil) IV: Module A Social Environmental Studies (Civil) IV: Module B 2. For Environmental Engineering all the study units must be selected from the Environmental Engineering specialisation field. 2.8 Magister Technologiae: Engineering: Civil (Programme code: MTECI) The offering of this degree is subject to ministerial approval. For further details contact Civil Engineering. 2.9 National Diploma: Engineering: Electrical (Programme code: NDEEN) A Admission requirements See the admission requirements for the School of Engineering. Students who have not done Engineering Science N3, but have done other electrical study units as part of their N3 should contact the Department of Electrical and Mining Engineering for approval prior to registration. B Purpose and outcomes of qualification Students will be competent to apply technical knowledge, engineering principles and problem-solving techniques in the field of Electrical Engineering by operating within the relevant standards and codes in collaboration with other members of the engineering team. They will be able to register with the Engineering Council of South Africa (ECSA) as a Professional Technician in the field of Electrical Engineering. QUALIFICATION OUTCOMES AND ASSESSMENT CRITERIA Specific exit level outcomes and associated assessment criteria for this qualification are available in separate internal departmental documents. C Composition and completion of Curriculum Table A lists all the study units from which a complete curriculum for the diploma can be composed. The following minimum requirements for the diploma should be met: 1. Compulsory study units: Communication Skills I Computer Skills I or Programming I Mathematics I, II, III Electrical Engineering I, II Electronics I, II Digital Systems I Design Project III 2. A minimum total of three credits for study units from Table A (**). 3. At least 0.5 credits for level three (III) study units. 4. Work integrated learning (previously experiential training) as offered in Electrical Engineering Practice I and Electrical/ Electronic Engineering Practice II. ** A maximum of 0.5 credits towards the diploma may be taken from any of the other instructional offerings in Engineering. D Subject prerequisites and corequisites Refer to table A for the prerequisite and co-requisites for each subject. A prerequisite subject is a subject that must be passed before the student can enrol for another subject. A co-requisite subject is a subject that the student must register for together with the subject under consideration. The course uses Computer Based Training material; access to a Personal Computer is compulsory. Also see requirements for IT related study units. E Practical study units The student must register for practical and related theoretical study units simultaneously. Additional fees are payable for practical study units. A student can do practical work at work under supervision of a suitable mentor or can a end workshops organised by the Department. The student has to book for these workshops timeously. Procedures for booking are given in the tutorial le ers. F Design project III Design Project III is the main design subject of the National Diploma: Engineering: Electrical where students apply their level III subject knowledge to solve a specific problem. Students do projects that are related to their working environments under the supervision of suitable mentors. The student must identify his/her own mentor in the working environment. The student and the mentor should then together identify a suitable project and propose it in the form of a first progress report. Students thus have to be working in a technical environment to be able to do the Design Project III. Since the projects are work-related UNISA is not in a position to provide students with projects and mentors. A suitable project will however provide for the phases of problem definition, concept study, design, evaluations and conclusions. 65

67 UNISA will guide and evaluate the student through a mechanism of progress reports (3), a final report and in conclusion an oral examination. G Prescribed books The books prescribed for each subject are specified in the first tutorial le er of each subject and on the myunisa site. H Suggested curricula Any non-compulsory study units can be chosen in the composition of a curriculum, as long as the minimum requirements are met. The curriculum should however be composed in order to prepare the student for a specific field of specialisation. Suggested fields of specialisation for curricula are the following: 1. Computer Systems 2. Electronics and Electronic Communication 3. Power Engineering 4. Process Instrumentation 5. Mechatronics 6. Clinical Engineering There are other fields of specialisation for which curricula can be composed. Refer to table A for alternative study units. I See TABLE A. Availability of study units The number of study units for which a student may register is optional and depends on the amount of study time available. As a general rule, and in order to establish a sound basis for study management, students should allow themselves a minimum of one hour of study per day per subject. This figure should then be kept in mind when selecting the number of study units Computer Systems (Programme code: NDEEN COS) 1. Suggested Curriculum PART 1 1. KVH171Y Communication Skills I CEM101A End-user computing 3. MAT181Q Mathematics I ++ See admission requirements for Engineering studies 4. ELE171U ELE1PRA 5. ECT151R ECT1PRA 6. DIG111Z DIG1PRA Electrical Engineering I Theory ++ Electrical Engineering I ++ Electronics I ++ Electronics I ++ Digital systems I ++ Digital systems I COS111U Introduction to programming 1 See admission requirements for Engineering studies See admission requirements for Engineering studies See requirements for IT related study units PART 2 8. MAT291X Mathematics II++ Mathematics I (MAT181Q) 9. ELE281X ELE2PRA Electrical Engineering II ++ Electrical Engineering II ++ Electrical Engineering I Theory (ELE171U) Electrical Engineering I (ELE1PRA) 10. ECT261Z ECT2PRA 11. DIG221X 12. DIG2PRA PRG2M1E PRG2M2E Electronics II - Theory++ Electronics II ++ Digital Systems II Digital Systems II Programming II (PRG211E) (TWO modules): Programming II Programming II 13. NSY211E Network Systems II 14. Work integrated learning: EPR101E Electrical Engineering Practice I++ PART 3 Electronics I (ECT151R) Electronics I (ECT1PRA) Digital Systems I (DIG111Z) Digital systems I (DIG1PRA) Programming I (PRG1M1E and PRG1M2E)) See requirements for IT related study units Guideline: 10 study units towards the diploma should be completed. 14. MAT301W Mathematics III++ Mathematics II (MAT291X) 15. ECT381A ECT3PRA 16. DIG331Q DIG3PRA Electronics III - Theory Electronics III Digital Systems III - Theory Digital Systems III Electronics II (ECT261Z) Electronics II (ECT2PRA) Digital Systems II (DIG221X) Digital Systems II (DIG2PRA) 17. PRO301E Programming III Programming II (PRG2M1E and PRG2M2E) 18. & 19. TWO of the following theoretical study units together with the related practical study units: ECM291Z ECM2PRA NSY311E Electronic Communication II Electronic Communication II Network Systems III (TCP/IP) Co-requisite: Electronics II (Theory and Practical) (ECT261Z and ECT2PRA) Co-requisite: Mathematics II (MAT291X) Network Systems II (NSY211E) ICT141E Business informatics I See requirements for IT related study units 20. ELP201E Work integrated learning: Electronic Engineering Practice II++ PART 4 15 study units towards the diploma 21. DPJ391U Design Project III++ 10 study units on level 1 or 2, & 2 study units on level 3. See par. F 22. & 23. TWO of the following theoretical study units together with the related practical study units: 66

68 ICT131C ICT132D MNG2M1Y MNG2M2Y ENT2M1I ENT2M2I Workstation technical skills Network technical skills Management II (Eng: Electrical) (2 Modules): Module A Module B Entrepreneurship II (2 Modules): Module A Module B See requirements for IT related study units See notes ** See notes ** 12. PRG2M1E PRG2M2E 13. EPR101E PART 3 Programming II (PRG211E) (TWO modules): Programming II Programming II Work integrated learning: Electrical Engineering Practice I++ Programming I PRG1M1E PRG1M2E Guideline: 10 study units towards the diploma should be completed. ++ Compulsory study units. NOTES ** Students can only do either Management II or Entrepreneurship II (Not Both). Both modules of each must be passed to pass the subject Electronics and Electronic Communication (Programme code: NDEEN EEC) 1. Suggested curriculum PART 1 1. KVH171Y Communication Skills I CEM101A End-user computing 3. MAT181Q Mathematics I ++ See admission requirements for Engineering Studies 4. ELE171U ELE1PRA Electrical Engineering I Theory ++ Electrical Engineering I ++ See admission requirements for Engineering Studies 5. ECT151R ECT1PRA 6. DIG111Z DIG1PRA Electronics I ++ See admission Electronics I ++ requirements for Engineering Studies Digital systems I ++ Digital systems I COS111U Introduction to programming 1 PART 2 See requirements for IT related study units. 8. MAT291X Mathematics II++ MAT181Q (Mathematics I) 9. ELE281X ELE2PRA Electrical Engineering II ++ Electrical Engineering II ++ ELE171U (Electrical Engineering I Theory) ELE1PRA (Electrical Engineering I ) 10. ECT261Z ECT2PRA 11. DIG221X DIG2PRA Electronics II - Theory++ Electronics II ++ Digital Systems II Digital Systems II ETC151R (Electronics I ) ETC1PRA (Electronics I ) DIG111Z (Digital Systems I ) DIG1PRA (Digital systems I ) 14. MAT301W Mathematics III++ MAT291X (Mathematics II) 15. ECT381A ECT3PRA Electronics III - Theory Electronics III ECT261Z (Electronics II ) ECT2PRA (Electronics II ) 16. DIG331Q DIG3PRA Digital Systems III - Theory Digital Systems III DIG221X (Digital Systems II ) DIG2PRA (Digital Systems II ) 17. ECM291Z ECM2PRA MTR341X MTR3PRA EKM341X EKM3PRA ELP201E PART 4 Electronic Communication II Electronic Communication II Metrology III Metrology III and Electronic Measurements III Electronic Measurements III Work integrated learning: Electronic Engineering Practice II++ Electronics II (Theory and Practical) co-requisite Mathematics II corequisite Electronics II & Practical Metrology III and Electronic Measurements III MUST be taken together. Together these study units are the equivalent of one subject. 15 study units towards the diploma 21. DPJ391U Design Project III++ 10 study units on level 1 or 2, & 2 study units on level 3. See par. F & 24. THREE of the following theoretical study units together with the related practical study units: MCE341Z MCE3PRA RAE341X RAE3PRA CSY391B CSY3PRA Microwave Communication III Microwave Communication III Radio Engineering III Radio Engineering III Control Systems III Control Systems III Electronic Communication II & practical (ECM291Z and ECM2PRA) Electronic Communication II & practical (ECM291Z and ECM2PRA) Electronics II & Practical ((ECT261Z and ECT2PRA) Electrical Engineering II Theory & Practical (ELE281X and ELE2PRA) Mathematics III 67

69 MNG2M1Y MNG2M2Y ENT2M1I ENT2M2I Management II (Eng: See notes ** Electrical)(Two Modules) Module A Module B Entrepreneurship II (Two Modules) Module A Module B See notes ** PRO301E Programming III Programming II (PRG2M1E and PRG2M2E) FUELCET Fuel Cell Technology I This study unit is an optional extra 11. DIG221X DIG2PRA 12. PRG2M1E PRG2M2E 13. EPR101E Digital Systems II Digital Systems II Programming II (PRG211E) (TWO modules): Programming II Programming II Work integrated learning: Electrical Engineering Practice I++ Digital Systems I (DIG111Z) Digital systems I (DIG1PRA) Programming I (PRG1M1E and PRG1M2E) Guideline: 10 study units towards the diploma should be completed. FUELCES Fuel Cell Systems I This study unit is an optional extra PART 3 ++ Compulsory study units. NOTES ** Students can only do either Management II or Entrepreneurship II (Not Both). Both modules of each must be passed to pass the subject Power Engineering (Programme code: NDEEN PEN) 1. Suggested curriculum PART 1 1. KVH171Y Communication Skills I CEM101A End-user computing 3. MAT181Q Mathematics I ++ See admission requirements for Engineering Studies 4. ELE171U ELE1PRA Electrical Engineering I Theory ++ Electrical Engineering I ++ See admission requirements for Engineering Studies 5. ECT151R ECT1PRA 6. DIG111Z DIG1PRA Electronics I ++ Electronics I ++ Digital systems I ++ Digital systems I COS111U Introduction to programming 1 PART 2 See admission requirements for Engineering Studies See admission requirements for IT related study units See requirements for IT related subjects 8. MAT291X Mathematics II++ Mathematics I (MAT181Q) 9. ELE281X ELE2PRA Electrical Engineering II ++ Electrical Engineering II ++ Electrical Engineering I Theory (ELE171U) Electrical Engineering I (ELE1PRA) 10. ECT261Z ECT2PRA Electronics II - Theory++ Electronics II ++ Electronics I (ECT151R) Electronics I (ELE1PRA) 14. MAT301W Mathematics III++ Mathematics II (MAT291X) 15. ELE391X Electrical Engineering III Electrical Engineering - Theory and II & Practical ELE3PRA Electrical Engineering III (ELE281X and ELE2PRA) 16. INE211E INE2PRA 17. EMM261R 18. & EMM2PRA Industrial Electronics II - Theory and Industrial Electronics II Electrical Machines II - Theory and Electrical Machines II Electronics I & Practical (ECT151R and ECT1PRA) Electrical Engineering I & Practical (ELE171U and ELE1PRA) TWO of the following theoretical study units together with the related practical subject: ELD371R ELD3PRA CSY391B CSY3PRA DIG331Q DIG3PRA EPR201E PART 4 Electrical Distribution III - Theory and Electrical Distribution III Control Systems III Control Systems III Digital Systems III - Theory and Digital Systems III Work integrated learning: Electrical Engineering Practice II++ Electrical Engineering II & Practical (ELE281X and ELE2PRA) Electronics II & Practical (ECT261Z and ECT2PRA) Electrical Engineering II Theory & Practical (ELE281X and ELE2PRA) Mathematics III (MAT301W) Digital Systems II & Practical (DIG221X and DIG2PRA) 15 study units towards the diploma 21. DPJ391U Design Project III++ 10 study units on level 1 or 2, & 2 study units on level 3. See par. F 22. & 23. TWO of the following theoretical study units together with the related practical study units: 68

70 PCE361U PCE3PRA ELM381Z ELM3PRA EMM371R EMM3PRA MTR341X MTR3PRA EKM341X EKM3PRA MNG2M1Y MNG2M2Y ENT2M1I ENT2M2I Power Electronics III - Theory and Power Electronics III Electrical Protection III - Theory and Electrical Protection III Electrical Machines III - Theory and Electrical Machines III Metrology III Metrology III and Electronic Measurements III Electronic Measurements III Management II (Eng: See notes ** Electrical)(Two Modules) Module A Module B Entrepreneurship II (Two Modules) Module A Module B Electronics II (Theory & Practical) (ECT261Z and ECT2PRA) OR Industrial Electronics II (Theory & Practical) (INE211E and INE2PRA) Electrical Engineering II (Theory & Practical) (ELE281X and ELE2PRA) Electrical Engineering II (Theory & Practical) (ELE281X and ELE2PRA) & Electrical Machines II (Theory & Practical) (EMM261R and EMM2PRA) Electronics II & Practical (ECT261Z and ECT2PRA) Metrology III and Electronic Measurements III MUST be taken together. These study units will be combined and become one subject pending on ICT system being integrated. See notes ** FUELCET Fuel Cell Technology I This study unit is an optional extra FUELCES Fuel Cell Systems I This study unit is an optional extra ++ Compulsory study units Process Instrumentation (Programme code: NDEEN PIN) 1. Suggested curriculum PART 1 1. KVH171Y Communication Skills I CEM101A End-user computing 3. MAT181Q Mathematics I ++ See admission requirements for Engineering Studies 4. ELE171U ELE1PRA Electrical Engineering I Theory ++ Electrical Engineering I ++ See admission requirements for Engineering Studies 5. ECT151R ECT1PRA Electronics I ++ Electronics I ++ See admission requirements for Engineering Studies 6. DIG111Z DIG1PRA Digital systems I ++ Digital systems I COS111U Introduction to programming 1 PART 2 See requirements for IT related study units. 8. MAT291X Mathematics II++ Mathematics I 9. ELE281X ELE2PRA Electrical Engineering II ++ Electrical Engineering II ++ Electrical Engineering I Theory (ELE171U) Electrical Engineering I (ELE1PRA) 10. ECT261Z ECT2PRA 11. DIG221X DIG2PRA 12. PRS131P 13. PRS1PRA EPR101E PART 3 Electronics II - Theory++ Electronics II ++ Digital Systems II Digital Systems II Process Instrumentation I - Theory and Process Instrumentation I Work integrated learning: Electrical Engineering Practice I++ Electronics I (ECT151R) Electronics I (ECT1PRA) Digital Systems I (DIG111Z) Digital systems I (DIG1PRA) Guideline: 10 study units towards the diploma should be completed. 14. MAT301W Mathematics III++ Mathematics II. 15. PRS241S PRS2PRA Process Instrumentation II - Theory and Process Instrumentation II Process Instrumentation I & Practical (PRS131P and PRS1PRA) 16. INE211E INE2PRA 17. CSY391B CSY3PRA 18. DIG331Q DIG3PRA PRG2M1E PRG2M2E EPR201E Industrial Electronics II - Theory and Industrial Electronics II Control Systems III Control Systems III Digital Systems III - Theory and Digital Systems III Programming II (PRG211E) (TWO modules): Programming II Programming II Work integrated learning: Electrical Engineering Practice II++ Electronics I & Practical (ECT151R and ECT1PRA) Electronics II & Practical (ECT261Z and ECT2PRA) Electrical Engineering II Theory & Practical (ELE281X and ELE281X) Mathematics III Digital Systems II & Practical (DIG221X and DIG2PRA) Programming I (PRG1M1E and PRG1M2E) 15 study units towards the diploma 69

71 PART DPJ391U Design Project III++ 10 study units on level 1 or 2, & 2 study units on level 3. See par. F 22. PRS341Z PRS3PRA Process Instrumentation III and Process Instrumentation III Process Instrumentation II & Practical (PRS241S and PRS2PRA) 23. ONE of the following theoretical study units together with the related practical subject: MTR341X MTR3PRA EKM341X EKM3PRA MNG2M1Y MNG2M2Y ENT2M1I ENT2M2I Metrology III Metrology III and Electronic Measurements III Electronic Measurements III Management II (Eng: See notes ** Electrical)(Two Modules) Module A Module B Entrepreneurship II (Two Modules) Module A Module B ++ Compulsory study units. Electronics II & Practical (ECT261Z and ECT2PRA) Metrology III and Electronic Measurements III MUST be taken together. These study units will be combined and become one subject pending on ICT system being integrated. See notes ** NOTES ** Students can only do either Management II or Entrepreneurship II (Not Both). Both modules of each must be passed to pass the subject Mechatronics (Programme code: NDEEN MEC) 1. Suggested curriculum (Take Note: This curriculum contains more than the minimum number of credits for the National Diploma) PART 1 1. KVH171Y Communication Skills I CEM101A End-user computing 3. MAT181Q Mathematics I ++ See admission requirements for Engineering Studies 4. ELE171U ELE1PRA Electrical Engineering I Theory ++ Electrical Engineering I ++ See admission requirements for Engineering Studies 5. ECT151R ECT1PRA 6. MCA141Z MCA1PRA Electronics I ++ See admission Electronics I ++ requirements for Engineering Studies Mechanics I Mechanics I 7. MED161Q Mechanical Engineering Drawing I PART 2 8. MAT291X Mathematics II++ Mathematics I (MAT181Q) 9. ELE281X ELE2PRA Electrical Engineering II ++ Electrical Engineering II ++ Electrical Engineering I Theory (ELE171U) Electrical Engineering I (ELE1PRA) 10. ECT261Z ECT2PRA Electronics II - Theory++ Electronics II DIG111Z Digital Systems I - Theory++ DIG1PRA Digital Systems I - Practical COS111U Introduction to programming MOM251Z MOM2PRA 14. SOM251R 15. SOM2PRA EPR101E PART 3 Electronics I (ECT151R) Electronics I (ECT1PRA) See requirements for IT related study units. Mechanics of Machines II Mechanics I & Practical (MCA141Z and Mechanics of Machines II MCA1PRA) - Practical Strength of Materials II Strength of Materials II - Practical Work integrated learning: Electrical Engineering Practice I++ Mechanics I & Practical (MCA141Z and MCA1PRA) Guideline: 10 study units towards the diploma should be completed. 16. MAT301W Mathematics III++ Mathematics II (MAT201X). Ook in Afrikaans aangebied 17. INE211E INE2PRA Industrial Electronics II - Theory and Industrial Electronics II Electronics I & Practical (ECT151R and ECT1PRA) 18. CSY391B CSY3PRA 19. DIG221X DIG2PRA 20. MOM371A MOM3PRA 21. FMC201U 22. FMC2PRA EPR201E Control Systems III Control Systems III Digital Systems II - Theory and Digital Systems II Mechanics of Machines III - Theory Mechanics of Machines III - Practical Fluid Mechanics II - Theory Fluid Mechanics II - Practical Work integrated learning: Electrical Engineering Practice II++ Electronics II & Practical (ECT261Z and ECT2PRA) Electrical Engineering II Theory & Practical (ELE281X and ELE2PRA) Mathematics III Digital Systems I & Practical (DIG111Z and DIG1PRA) Mechanics of Machines II Theory & Practical Mechanics I & Practical (MCA141Z and MCA1PRA) 15 study units towards the diploma 70

72 PART DPJ391U Design Project III++ 10 study units on level 1 or 2, & 2 study units on level 3. See par. F 24. EMM261R EMM2PRA 25. DIG331Q DIG3PRA 26. PCE361U PCE3PRA Electrical Machines II - Theory Electrical Machines II - Practical Digital Systems III Digital Systems III - Practical Power Electronics III Power Electronics III - Practical Electrical Engineering I & Practical (ELE171U and ELE1PRA) Digital Systems II & Practical (DIG221X and DIG2PRA) Industrial Electronics II & Practical (INE211E and INE2PRA) OR Electronics II & Practical (ECT261Z and ECT2PRA) 27. FUELCET Fuel Cell Technology I This study unit is an optional extra. 28. FUELCES Fuel Cell Systems I This study unit is an optional extra. ++ Compulsory study units Clinical Engineering (Programme code: NDEEN CEN) 1. Suggested curriculum PART 1 1. KVH171Y Communication Skills I CEM101A End-user computing 3. MAT181Q Mathematics I ++ See admission requirements for Engineering Studies 4. ELE171U ELE1PRA Electrical Engineering I Theory ++ Electrical Engineering I ++ See admission requirements for Engineering Studies 5. ECT151R ECT1PRA Electronics I ++ Electronics I DIG111Z DIG1PRA Digital Systems I - Theory++ Digital Systems I - Practical++ 7. COS111U Introduction to programming 1 PART 2 See admission requirements for Engineering Studies See requirements for IT related study units 8. MAT291X Mathematics II++ Mathematics I (MAT181Q) 9. ELE281X ELE2PRA Electrical Engineering II ++ Electrical Engineering II ++ Electrical Engineering I Theory (ELE171U) Electrical Engineering I (ELE1PRA) 10. ECT261Z ECT2PRA Electronics II - Theory++ Electronics II ++ Electronics I (ECT151Z) Electronics I (ECT1PRA) 11. DIG221X DIG2PRA PRG2M1E PRG2M2E EPR101E PART 3 Digital Systems II - Theory and Digital Systems II Programming II (PRG211E) (TWO modules): Programming II Programming II Work integrated learning: Electrical Engineering Practice I++ Digital Systems I & Practical (DIG111Z and DIG1PRA) Programming I (PRG1M1E and PRG1M2E) Guideline: 10 study units towards the diploma should be completed. 14. MAT301W Mathematics III++ Mathematics II (MAT291X) 15. ECT381A ECT3PRA Electronics III - Theory++ Electronics III DIG331Q Digital Systems III DIG3PRA Digital Systems III - Practical 17. BSY1015 Bio-systems I MEQ3116 MEQ3P1C 19. MEQ MEQ3P2D ELP201E PART 4 Medical Equipment III A ++ Medical Equipment III A Practical++ Medical Equipment III B ++ Medical Equipment III B Practical++ Work integrated learning: Electronic Engineering Practice II++ Electronics II (ECT261Z) Electronics II (ECT2PRA) Digital Systems II & Practical (DIG221Z and DIG2PRA) 15 study units towards the diploma 21. DPJ391U Design Project III++ 10 study units on level 1 or 2, & 2 study units on Clinical Engineering subjects. See par. F 22. & 23. TWO of the following theoretical study units, together with the practical study unit MRS301L MNG2M1Y MNG2M2Y ENT2M1I ENT2M2I Medical Radiation Systems III * Management II (Eng: See notes ** Electrical)(Two Modules) Module A Module B Entrepreneurship II (Two Modules) Module A Module B ++ Compulsory study units. NOTES ** Biosystems I (ESV1015) * Available, 2nd cycle 2006 See notes ** Students can only do either Management II or Entrepreneurship II (not both). Both modules of each must be passed to pass the subject. 71

73 Students can contact the Department at Students registered prior to 2004 who are uncertain as to which module(s) to register for, must contact the Unisa Contact Centre: National Diploma: Engineering: Electrical TABLE A: PREREQUISITES AND CO-REQUISITES STUDY UNIT NO. OF CREDITS PREREQUISITE STUDY UNIT CO- REQUISITE STUDY UNIT AVS111E Avionics I 0.1 None None X BSY1015 Bio-systems I 0.1 None None 4 CPK151V Computer Skills I CPKPRAC Computer Skills I practical KVH171Y DIG111Z DIG1PRA ELE171U ELE1PRA EPR101E ECT151R ECT1PRA FUELCET Communi-cation Skills I Digital Systems I Digital Systems I practical Electrical Engineering I Electrical Engineering I practical Electrical Engineering Practice I Electronics I Electronics I practical Fuel Cell Technology I 0.05 None CPKPRAC 4 0 None CPK151V None None None DIG1PRA 4 0 None DIG111Z None ELE1PRA 4 0 None ELE171U 4 0,5 10 study units towards the diploma None None ECTIPRA 4 0 None ECT151R None None 4 FUELCES Fuel Cell Systems I 0.1 None None 4 MAT181Q Mathematics I 0.1 None None 4 MCA141Z Mechanics I MCA1PRA Mechanics I Practical MTC111E Mechanical Technology I MTC1PRA Mechanical Technology I Practical 0.1 None MCA1PRA 4 0 None MCA141Z MCA141Z & MCA1PRA 0 MCA141Z & MCA1PRA MTC1PRA 4 MTC111E 4 FIC181C Physics I 0.1 None FIC1PRA 4 FIC1PRA Physics I practical 0 None FIC181C 4 PRS131P PRS1PRA Process Instrumentation I Process Instrumentation I Practical 0.1 ELE171U & ELE1PRA 0 ELE171U & ELE1PRA PRS1PRA 4 PRS131P 4 PRG111E Programming I 0.1 None CPK151V & CPKPRAC A 4 STUDY UNIT NO. OF CREDITS PREREQUISITE STUDY UNIT PRJ101Z Projects I 0.1 ELE171U & ELE1PRA ECT151R & ECT1PRA DIG111Z & DIG1PRA AVS211E Avionics II 0.1 AVS111E ELE171U & ELE1PRA ECT151R & ECT1PRA DIG111Z & DIG1PRA MAT131Q CPK291Z Computer Skills II 0.05 CPK151V & CPKPRAC CSY251H CSY2PRA Control Systems II Control Systems II practical DCM211E Digital Communication Ii DCM2PRA Digital Communication II practical DIG221X DIG2PRA ECM291Z Digital Systems II Digital Systems II practical Electronic Communication II ECM2PRA Electronic Communication II practical ECT261Z ECT2PRA ELE281X Electronics II Electronics II practical Electrical Engineering II 0.1 ECT261Z & ECT2PRA MAT291X 0 ECT261Z & ECT2PRA MAT291X 0.1 DIG221X & DIG2PRA 0 DIG221X & DIG2PRA 0.1 DIG111Z & DIG1PRA 0 DIG111Z & DIG1PRA CO- REQUISITE STUDY UNIT None None None CSY2PRA CSY251H DCM2PRA ELE171U & ELE1PRA ECT261Z & ECT2PRA DCM211E ELE171U & ELE1PRA ECT261Z & ECT2PRA DIG2PRA ECT151R & ECT1PRA ELE171U & ELE1PRA DIG221X ECT151R & ECT1PRA ELE171U & ELE1PRA 0.1 None ECM2PRA ECT261Z & ECT2PRA MAT291X 0 None ECM291Z ECT261Z & ECT2PRA MAT291X 0.1 ECT151R & ECT1PRA 0 ECT151R & ECT1PRA 0.1 ELE171U & ELE1PRA ECT2 PRA ELE171U & ELE1PRA DIG111Z & DIG1PRA ECT261Z ELE171U & ELE1PRA DIG111Z & DIG1PRA ELE2PRA ECT151R & ECT1PRA DIG111Z & DIG1PRA A X X X X X X X

74 ELE2PRA ELP201E EPR201E STUDY UNIT Electrical Engineering II practical Electronic Engineering Practice II Electrical Engineering Practice II EMM261R Electrical Machines II EMM2PRA Electrical Machines II practical NO. OF CREDITS PREREQUISITE STUDY UNIT 0 ELE171U & ELE1PRA 0,5 15 Study units towards the diploma Study units towards the diploma CO- REQUISITE STUDY UNIT ELE281X ECT151R & ECT1PRA DIG111Z & DIG1PRA A 4 NONE 4 NONE None EMM2 PRA ELE281X & ELE2PRA 0 None EMM261R ELE281X & ELE2PRA ENT231I Entrepeneurship II 0.1 None NONE 4 INE211E INE2PRA Industrial Electronics II Industrial Electronics II practical 0.1 ECT151R & ECT1PRA 0 ECT261Z & ECT2PRA 4 4 INE2PRA 4 INE211E 4 MAT291X Mathematics II 0.1 MAT181Q NONE 4 MNG251Y Management II (Engineering: Electrical) MTC211E NSY211E Mechanical Technology II Network Systems II 0.1 None NONE MTC111E or Mechanics I 0.1 ELE171U & ELE1PRA ECT151R & ECT1PRA DIG111Z & DIG1PRA CPK151V & CPKPRAC PRG211E Programmng II 0.1 PRG111E/ SDG211E ELE171U & ELE1PRA ECT151R & ECT1PRA DIG111Z & DIG1PRA 4 DIG211X 4 None PRJ211T Projects II 0.1 PRJ101Z None X PRS241S PRS2PRA Process Instrumentation II Process Instrumentation II practical 0.1 PRS131P &PRS1PRA 0 PRS131P &PRS1PRA X PRS2PRA 4 PRS241S 4 SDG211E So ware Design II 0.1 None None X SYA211E System Analysis II 0.1 None X AVS311E Avionics III 0.1 AVS211E MAT201X X CSY391B CSY3PRA Control Systems III Control Systems III practical 0.1 ELE281X & ELE2PRA ECT261Z & ECT2PRA MAT301W 0 ELE281X & ELE2PRA ECT261Z & ECT2PRA MAT301W CSY3PRA 4 CSY391B 4 DIG331Q DIG3PRA STUDY UNIT Digital Systems III Digital Systems III practical NO. OF CREDITS PREREQUISITE STUDY UNIT 0.1 DIG221X & DIG2PRA 0 DIG221X & DIG2PRA CO- REQUISITE STUDY UNIT DIG3PRA 4 DIG331Q 4 DPJ391U Design Projects III Study units on level 1 or 2 and 2 study units on level 3 None 4 EAP311E ELD371R Electronic Applications III Electrical Distribution III ELD3PRA Electrical Distribution III practical ELE391X ELE3PRA Electrical Engineering III Electrical Engineering III practical EMM371R Electrical Machines III EMM3PRA Electrical Machines III practical ECT381A ECT3PRA EKM341X Electronics III Electronics III practical Electronic Measurements III EKM3PRA Electronic Measurements III Practical EKM351X ELM381Z Electrical Measurements III Electrical Protection III ELM3PRA Electrical Protection III practical ETC301E LGD311E Electronic Communication III Logic Design III LGD3PRA Logic Design III practical LUX311E Illumination III LUX3PRA Illumination III practical 0.1 ECT381A & ECT3PRA 0.1 ELE281X & ELE2PRA 0 ELE281X & ELE2PRA 0.1 ELE281X & ELE2PRA 0 ELE281X & ELE2PRA 0.1 EMM261R & EMM2 PRA ELE281X & ELE2PRA 0 EMM261R & EMM2 PRA ELE281X & ELE2PRA 0.1 ECT261Z & ECT2PRA 0 ECT261Z & ECT2PRA 0.05 ECT261Z & ECT2PRA 0 ECT261Z & ECT2 PRA 0.05 ECT261Z & ECT2 PRA 0.1 ELE281X & ELE2PRA 0 ELE281X & ELE2PRA 0.1 ECM291Z & ECM2PRA 0.1 DIG331Q & DIG3PRAC 0 DIG331Q & DIG3PRA 0.1 ECT261Z & ECT2PRA 0 ECT261Z & ECT2PRA None A X ELD3PRA 4 ELD371R 4 ELE3PRA 4 ELE391X 4 EMM3PRA 4 EMM371R 4 ECT3PRA 4 ECT381A 4 EKM3PRA MTR341X & MTR3PRA EKM341X MTR341X & MTR3PRA None 4 4 X ELM3PRA 4 ELM381Z 4 LGD3PRA LGD311E LUX3PRA LUX311E MAT301W Mathematics III 0.1 MAT291X None 4 MEQ3116 MEQ3O1C Medical Equipment III A Medical Equipment III A Practical 0.1 None MEQ3O1C 4 0 None MEQ X X X X X 73

75 MEQ3128 MEQ3P2D MCE341Z STUDY UNIT Medical Equipment III B Medical Equipment III B -practical Microwave Communication III MCE3PRA Microwave Communication III practical MNG351Y Management III (Eng) MTC311E MTR341X Mechanical Technology III Metrology III MTR3PRA Metrology III practical NSY311E OSY311E PCE361U PCE3PRA Network Systems III Operating Systems III Power Electronics III Power Electronics III practical NO. OF CREDITS PREREQUISITE STUDY UNIT CO- REQUISITE STUDY UNIT 0.1 None MEQ3P2D 4 0 None MEQ ECM291Z & ECM2PRA 0 ECM291Z & ECM2PRA MCE3PRA 4 MCE341Z MNG251Y None MTC211E None ECT261Z & ECT2PRA 0 ECT261Z & ECT2PRA 0.1 NSY211E & NSY2PRA A MTR3PRA 4 EKM341X & EKM3PRA MTR341X 4 EKM341X & EKM3PRA None 0.1 PRG211E None INE211E& INE2PRA ELE281X & ELE2PRA 0 INE211E& INE2PRA ELE281X & ELE2PRA PRO301E Programming III 0.1 PRG211E/ SDG311E PRS341Z PRS3PRA Process Instrumentation III Process Instrumentation III Practical 0.1 PRS241S & PRS2PRA 0 PRS241S & PRS2PRA RAD361S Radar III 0.1 ECM291Z & ECM2PRA RAD3PRA Radar III practical RAE341X Radio Engineering III RAE3PRA Radio Engineering III practical 0 ECM291Z & ECM2PRA 0.1 ECM291Z &ECM2PRA 0 ECM291Z & ECM2PRA X PCE3PRA 4 PCE361U 4 None 4 PRS3PRA CSY391B & CSY3PRA PRS341Z CSY391B & CSY3PRA RAD3PRA RAD361S 4 4 X X RAE3PRA 4 RAE341X 4 SDG311E So ware Design III 0.1 None None X SGP301E TEV351V TEV3PRA Signal Processing III Television III Television III Practical A - Availability 4 - Offered X - Not offered? - Inquire about availability 0.1 X 0.1 ECM291Z & ECM2PRA 0 ECM291Z & ECM2PRA TEV3PRA TEV351V X X 2 Work integrated learning: Engineering: Electrical Work integrated learning is done at a company (approved by UNISA) a er registering for Work integrated learning I and II. Electrical Engineering Practice I consists of six months relevant work integrated learning a er completing 10 (ten) study units towards the diploma. Electrical Engineering Practice II is similar except that it is done a er completing 15 (fi een) study units towards the diploma. Work integrated learning is monitored by a log-book and mentor system. Students with an applicable N6 diploma or N6 certificate together with a recognised Trade Certificate (issued by the Department of Manpower), can apply for a credit for Electrical Engineering Practice I. Also see Work integrated learning: Engineering: Electrical below. GUIDELINES EPR101E Electrical Engineering Practice I: Ten study units successfully completed towards the national diploma EPR201E Electrical Engineering Practice II: Fi een study units successfully completed towards the national diploma ELP201E Electronic Engineering Practice II: Fi een study units successfully completed towards the national diploma 3 Fields of specialisation The fields of specialisation for which curricula are suggested are the following: Computer Systems Electronics and Electronic Communication Power Engineering Process Instrumentation Mechatronics Clinical Engineering 4 Suggested curricula EPR101E Electrical Engineering Practice I Topics from which the student and his/her mentor/training manager in consultation with the UNISA representative, can draw up a training programme to make out the required 24 weeks of work integrated learning: in the applicable field of study, are listed in the following table: ITEM ITEM DESCRIPTION TIME PERIOD NO. *1 Orientation 1 Week *2 Safety / First Aid Skills Nil *3 Basic Hand Skill and Computer Literacy 3 Weeks *4 General Administration 1 Week *5 Report Writing 1 Week *6 Electrical Components / Electronic Components / Wiring of Circuits 4 Weeks *7 Circuit Diagrams and Applicable Drawings 3 Weeks *8 Measuring Instruments 3 Weeks 9 Power Sources 3.weeks 10 Programmable Devices 3 Weeks 11 Measuring Instruments and Analysers 3 Weeks 12 Assembly and Preparation of Computer Components 3 Weeks 13 Network Administration 3 Weeks 14 Application Programming 3 Weeks 15 Basic Communication ( Modems, X.25 Pads) 3 Weeks 16 Power Supplies 2 Weeks 74

76 ITEM NO. ITEM DESCRIPTION 17 Flow Measurement 1 Week 18 Pressure Measurement 1 Week 19 Level Measurement 1 Week 20 Temperature Measurement 1 Week TIME PERIOD 21 Control Systems 2 Weeks 22 Wiring and Soldering of Elementary Circuits 2 Weeks 23 Manufacturing of Pc Boards 2 Weeks 24 Wiring Arrangements and Cable Binding 3 Weeks * Items 1-8 are common to all fields of specialisation and must be completed by all students. ELP201E Electronic Engineering Practice II All topics for the second part of work integrated learning: are listed below, from which at least five mentioned in each field of specialisation, need to be covered to make up a total of 24 weeks. 1. COMPUTER SYSTEMS ITEM ITEM DESCRIPTION NO. 1 Advanced Communication Systems 2 Requirements, Analysis and Design of Network Systems 3 Project Management, Installation, Commissioning and Testing of Computer System 4 Trouble Shooting and Maintenance of Computer Network Systems 5 Computer Aided Engineering and Computer Applications 6 Quality Control (ISO 9000) 7 Any other Task in Agreement with Technikon SA 2. ELECTRONICS AND ELECTRONIC COMMUNICATION ITEM ITEM DESCRIPTION NO. 1 Communication Systems 2 Industrial Electronics and Instrumentation 3 Design of Analogue and / or Digital Systems 4 Installation, Commissioning and Testing of New Analogue /digital Systems 5 Fault-finding and Maintenance of Digital and Analogue Systems 6 Computer-aided Engineering and Computer Applications 7 Quality Control 8 Any other Task in Agreement with Technikon SA 3. PROCESS INSTRUMENTATION ITEM ITEM DESCRIPTION NO. 1 Communication Systems 2 Industrial Electronics and Instrumentation 3 Design of Analogue and / or Digital Systems 4 Installation, Commissioning and Testing of New Analogue /digital Systems 5 Fault-finding and Maintenance of Digital and Analogue Systems 6 Computer-aided Engineering and Computer Applications 7 Quality Control 8 Any other Task in Agreement with Technikon SA EPR201E Electrical Engineering Practice II All topics for the second part of work integrated learning: are listed below, from which at least five mentioned in each field of specialisation, need to be covered to make up a total of 24 weeks. 4. POWER ENGINEERING ITEM ITEM DESCRIPTION NO. 1 Power Cables 2 Overhead Lines 3 Power Transformers 4 AC Machines 5 DC Machines 6 Rectification and Conversion 7 Protection Systems 8 Switchgear 9 Installation and Commissioning of Equipment 10 Drawing and Design of Circuits and Systems 11 Any other Task in Agreement with Technikon SA 5. MECHATRONICS ITEM ITEM DESCRIPTION NO. 1 Electrical and Mechanical Systems 2 Measuring Instruments 3 AC and DC Machines 4 Protection Systems 5 Mechanisation, Control Systems and Automation 6 Fault-finding and Maintenance 7 Drawing and Design of Circuits and Systems 8 Installation and Commissioning of Equipment 9 Project Scheduling 10 Computer Aided Engineering and Computer Applications 11 Any other Task in Agreement with Technikon SA A 2.10 Baccalaureus Technologiae: Engineering: Electrical (Programme code: BTELN) One of the following: (i) Admission requirements National Diploma: Engineering: Electrical (S4) with Mathematics III OR (ii) National Diploma In Electrical Engineering (T3) with Mathematics III PLUS the Bridging Subject: Design Project III (DPJ391U) OR (iii) (iv) National Higher Diploma in Electrical Engineering (T4) with Mathematics III, PLUS the Bridging Subject: Design Project III (DPJ391U) OR equivalent relevant qualification. Table B lists all the study units from which a complete curriculum for the degree can be composed. The following minimum requirements for the degree should be met: 1. Compulsory study units: IPR401E Industrial Project IV EMT401E Engineering Mathematics IV 2. A further minimum of 0.6 credits for study units from table B (***). 75

77 *** A maximum of 0.2 credits towards the degree may be taken from any of the other instructional offerings in Engineering at level IV. B Purpose and outcomes of qualification Students will be competent to design, implement and control production, testing, planning, construction, commissioning and maintenance in the field of Electrical Engineering by applying technical knowledge, engineering principles, innovative design, problem-solving techniques and managerial skills. They will be capable of exercising independent technological judgement and responsible decision making by taking into account the relevant financial, economic, commercial, social, environmental and statutory factors. A qualified person will be able to register with the Engineering Council of South Africa (ECSA) as a Professional Technologist in the field of Electrical Engineering. QUALIFICATION OUTCOMES AND ASSESSMENT CRITERIA Specific exit level outcomes and associated assessment criteria for this qualification are available in separate internal departmental documents. C Subject prerequisites and corequisites Refer to table B for the prerequisites and co-requisites for each subject. A pre-requisite subject is a subject that must be passed before the student can enrol for another subject. A co-requisite implies that the student must register for these study units together with the subject under consideration. D Compulsory subject: Industrial Project IV Since the subject Industrial Project IV is based on theoretical knowledge gained at BTech level, it is required that at least four technical electrical study units on the BTech level be registered for before registration for Industrial Project IV is allowed. E Practical study units The student must register for the practical and related theoretical study units simultaneously. Registration fees are payable for all the practical study units. The student can do the practical work either in his/her working environment or a end a practical workshop (ONLY in Gauteng). More details are given in the tutorial le ers. F Industrial project IV Industrial Project IV is the project subject of the BTech: Engineering: Electrical integrating and applying various technologies. This subject is also based on solving an industry-related problem. Students have to identify a suitable mentor in the working environment and together with the mentor identify a field of study that finds application in his/ her working environment. Due to the industrial nature of the subject UNISA cannot provide a student with a project or a mentor. The field of study as well as the mentor will be approved by a UNISA supervisor. The field of study forms the basis for the first stage of the project namely a literature study. During this phase the student familiarises him/herself with all relevant technologies in the field. Only in the next stage will the student together with his/her mentor and based on the literature study define a specific project title. The actual project then commences under the supervision of the UNISA supervisor and the guidance of the mentor. Progress reports form the basis of evaluating the student s progress and providing the necessary supervision. The final evaluation takes the form of a presentation which is evaluated by a panel of experts from Unisa and industry according to the standards required by the Engineering Council of South Africa. G Prescribed books The books prescribed for each subject are specified in the first tutorial le er of each subject. Tutorial le ers are also available on myunisa. H Suggested curricula Any non-compulsory study units can be chosen in the composition of a curriculum, as long as the minimum requirements are met. The curriculum would however normally be composed in order to prepare the student for a specific field of specialisation. Suggested fields of specialisation for curricula are the following: 1. Computer Systems 2. Power Engineering 3. Process Instrumentation 4. Telecommunication 5. Clinical Engineering There are other fields of specialisation for which curriculums can be composed. Refer to table B for alternative study units Computer Systems (Programme code: BTELN COS) 1. Suggested curriculum 1. COMPULSORY STUDY UNITS 1. IPR401E Industrial Project IV Design Project III (DPJ391U) and 4 level IV technical electrical study units. See par. F 2. EMT401E Engineering Mathematics IV Mathematics III (MAT301W) 3. DBP401E Database Programming IV Programming II (PRG2M1E and PRG2M2E) 4. CMN401E Computer Networks IV Network Systems III (NSY311E) 5. SSY401E So ware Systems IV Programming III (PRO301E) & Systems Analysis II (SYA2M1E and SYA2M2E) 6. SWE401I So ware Engineering IV Programming III (PRO301W) & Systems Analysis II (SYA2M1E and SYA2M2E) 2. CHOOSE TWO FROM THE FOLLOWING: 7. DSP401E DSP4PRA Digital Signal Processing IV (Theory Digital Signal Processing IV Mathematics III (MAT301W) 76

78 8. OPE401E OPE4PRA 9. CAN401E CAN4PRA 10. ENT401I ENM401E 11. ECT401E ECT4PRA NOTES: Opto-Electronics IV Opto-Electronics IV Circuit Analysis IV Circuit Analysis IV Entrepreneurship IV Or Engineering Management IV Electronics IV Electronics IV 1. A total of eight study units must be passed. 2. See requirements for IT related study units. Electronics III & Practical (ECT381A and ECT3PRA) Mathematics III (MAT301W) The project for Entrepreneurship IV must be engineering-oriented. Electronics III & Practical (ECT381A and ECT3PRA) Power Engineering (Programme code: BTELN PEN) 1. Suggested curriculum 1. COMPULSORY STUDY UNITS 1. IPR401E Industrial Project IV Design Project III and 4 level IV technical electrical study units. See par. F 2. EMT401E Engineering Mathematics IV Mathematics III (MAT301W) 2. CHOOSE A MINIMUM OF FOUR AND A MAXIMUM OF SIX FROM THE FOLLOWING: 3. HVE401E HVE4PRA 4. PRT401E PRT4PRA 5. ELM401E ELM4PRA 6. EMM401E EMM4PRA 7. PSY401E PSY4PRA 8. PCE401E PCE4PRA High Voltage Engineering IV High Voltage Engineering IV Electrical Engineering III & Electrical Protection III & Practical (ELE391X and ELE3PRA) Protection Technology IV Electrical Protection III & Practical Protection Technology IV (ELM381Z and ELM3PRA) Electrical Protection IV Electrical Protection IV Electrical Machines IV Electrical Machines IV Power Systems IV Power Systems IV Power Electronics IV Power Electronics IV Electrical Protection III & Practical (ELM381Z and ELM3PRA) Electrical Machines III & Practical (EMM371R and EMM3PRA) Electrical Engineering III & Practical (ELE391X and ELE3PRA) and Electrical Distribution III & Practical (ELD371R and ELD3PRA) Power Electronics III & Practical (PCE3PRA and PCE361U) 9. DCS401E CSY401E CSY4PRA 10. ECT401E ECT4PRA Digital Control Systems IV or Control Systems IV Control Systems IV Electronics IV Electronics IV Control Systems III and Digital Systems II - Theory & Practical (DIG221X and DIG2PRA) Control Systems III - Theory & Practical (CSY391S and CSY3PRA) Electronics III & Practical (ECT381A and ECT3PRA) 3. IF FEWER THAN SIX STUDY UNITS WERE CHOSEN FROM THE ELECTIVES CHOOSE ANOTHER ONE OR TWO STUDY UNITS FROM THE STUDY UNITS BELOW TO MAKE UP A TOTAL OF SIX STUDY UNITS FROM ALL THE ELECTIVES. 11. OPE401E OPE4PRA 12. CAN401E CAN4PRA 13. ENT401I NOTE: ENM401E Opto-Electronics IV Opto-Electronics IV Circuit Analysis IV Circuit Analysis IV Entrepreneurship IV or Engineering Management IV A total of eight study units must be passed. Electronics III & Practical (ECT381A and ECT3PRA) Mathematics III (MAT301W) The project for Entrepreneurship IV must be engineering-oriented Process Instrumentation (Programme code: BTELN PIN) 1. Suggested curriculum 1. COMPULSORY STUDY UNITS 1. IPR401E Industrial Project IV Design Project III and 4 level IV technical electrical study units 2. EMT401E Engineering Mathematics IV 3. PRS401E PRS4PRA Process Instrumentation IV Process Instrumentation IV 4. DCS401E Digital Control Systems IV 5. CSY401E CSY4PRA 6. ECT401E ECT4PRA Control Systems IV Control Systems IV Electronics IV Electronics IV Mathematics III (MAT301W) Process Instrumentation III & Practical (PRS341Z and PRS3PRA) Control Systems III and Digital Systems II Theory & Practical (DIG221X and DIG2PRA) Control Systems III - Theory & Practical (CSY391A and CSY3PRA) Electronics III & Practical (ECT381A and ECT3PRA) 77

79 2. CHOOSE TWO FROM THE FOLLOWING: 7. DSP401E DSP4PRA 8. OPE401E OPE4PRA 9. CAN401E CAN4PRA Digital Signal Processing IV Digital Signal Processing IV Opto-Electronics IV Opto-Electronics IV Circuit Analysis IV Circuit Analysis IV Mathematics III (MAT301W) Electronics III & Practical (ECT381A and ECT3PRA) Mathematics III (MAT301W) 10. CMN401E Computer Networks IV Network Systems III (MSY311E) 11. ENT401I NOTES: ENM401E Entrepreneurship IV or Engineering Management IV 1. A total of eight study units must be passed. 2. See requirements for IT related study units. The project for Entrepreneurship IV must be engineering-oriented Telecommunication (Programme code: BTELN TEL) 1. Suggested curriculum 1. COMPULSORY STUDY UNITS 1. IPR401E Industrial Project IV Design Project III and 4 level IVtechnical electrical study units 2. EMT401E Engineering Mathematics IV 3. ECM401E ECM4PRA 4. RAE401E RAE4PRA 5. DSP401E DSP4PRA 6. ECT401E ECT4PRA Electronic Communication IV Electronic Communication IV Radio Engineering IV Radio Engineering IV Digital Signal Processing IV Digital Signal Processing IV Electronics IV Electronics IV Mathematics III (MAT301W) Radio Engineering III - Theory & Practical (RAE341X and RAE3PRA) Radio Engineering III - Theory & Practical (RAE341X and RAE3PRA) Mathematics III (MAT301W) Electronics III & Practical (ECT381A and ECT3PRA) 2. CHOOSE TWO FROM THE FOLLOWING: 7. MWE401E MWE4PRA Microwave Engineering IV (Theory Microwave Engineering IV Radio Engineering III - Theory & Practical (RAE341X and RAE3PRA) 8. SCM401E Satellite Communications Radio Engineering III IV - Theory & Practical SCM4PRA Satellite Communications (RAE341X and RAE3PRA) IV 9. OPE401E OPE4PRA Opto-Electronics IV Opto-Electronics IV Electronics III & Practical (ECT381A and ECT3PRA) 10. CAN401E CAN4PRA Circuit Analysis IV Circuit Analysis IV Mathematics III (MAT301W) 11. CMN401E Computer Networks IV Network Systems III (NSY311E) 12. ENT401I NOTES: ENM401E Entrepreneurship IV or Engineering Management IV 1. A total of eight study units must be passed. 2. See requirements for IT related study units. Availability of study units: see Table B. The project for Entrepreneurship IV must be engineering-oriented Clinical Engineering (Programme code: BTELN CEN) 1. Suggested curriculum 1. COMPULSORY STUDY UNITS 1. IPR401E Industrial Project IV Design Project III and 3 level IV Clinical Engineering study units 2. EMT401E Engineering Mathematics IV 3. MEQ4018 MEQ4P1F 4. MEQ4029 MEQ4P2G Medical Equipment IV A Medical Equipment IV A - Practical Medical Equipment IV B Medical Equipment IV B - Practical Mathematics III (MAT301W) Medical Equipment III A (MEQ3116) Medical Equipment III A - Practical (MEQ301C) Medical Equipment III B (MEQ3128) Medical Equipment III B - Practical (MEQ302D) 5. CET401J Clinical Engineering Medical Equipment III A Technology Management (MEQ3116) IV Medical Equipment III A Practical (MEQ301C) 6. ENM401E Engineering Management IV 2. CHOOSE THREE FROM THE FOLLOWING: 7. DSP401E DSP4PRA Digital Signal Processing IV Digital Signal Processing IV Mathematics III (MAT301W) 78

80 8. OPE401E OPE4PRA 9. CAN401E CAN4PRA 10. ECT401E ECT4PRA 11. MWE401E MWE4PRA 12. ECM401E ECM4PRA 13. RAE401E RAE4PRA Opto-Electronics IV Opto-Electronics IV Circuit Analysis IV Circuit Analysis IV Electronics IV Electronics IV Microwave Engineering IV (Theory Microwave Engineering IV Electronic Communication IV Electronic Communication IV Radio Engineering IV Radio Engineering IV 14. ENT401I Entrepreneurship IV or NOTES: 1. A total of eight study units must be passed. 2. See requirements for IT related study units. Availability of study units: see table B Electronics III & Practical (ECT381A and ECT3PRA) Mathematics III (MAT301W) Electronics III & Practical (ECT381A and ECT3PRA) Radio Engineering III - Theory & Practical (RAE341X and RAE3PRA) Radio Engineering III - Theory & Practical (RAE341X and RAE3PRA) Radio Engineering III - Theory & Practical (RAE341X and RAE3PRA) The project for Entrepreneurship IV must be engineering-oriented BTech: Engineering: Electrical TABLE B SUBJECT PREREQUISITES AND CO-REQUISITES AUE401E CAN401E SUBJECT Audio Engineering IV Circuit Analysis IV CAN4PRA Circuit Analysis IV practical CET401J Clinical Engineering Technology Management IV CMN401E Computer Networks IV CSY401E CSY4PRA DBP401E DCS401E Control Systems IV Control Systems IV practical Database Programming IV Digital Control Systems IV NO. OF CREDITS PREREQUISITE SUBJECT 0.1 ECT381A & ECT3PRA CO- REQUISITE None 0.1 MAT301W CAN4PRA 4 0 MAT301W CAN401E MEQ3116 & MEQ3P1C None 0.1 PRG211E None CSY391B & CSY3PRA 0 CSY391B & CSY3PRA A X X CSY4PRA 4 CSY401E PRG211E None CSY391B & CSY3PRA DIG221X & DIG2PRA None 4 DSP401E DSP4PRA ECM401E SUBJECT Digital Signal Processing IV Digital Signal Processing IV practical Electronic Communication IV Theory ECM4PRA Electronic Communication IV practical ECS401E ECT401E ECT4PRA ELM401E Electronic Communication System IV Electronics IV Electronics IV Pra Ctical Electrical Protection IV ELM4PRA Electrical Protection IV practical EMF401E Electric And Magnetic Field Theory IV EMM401E Electrical Machines IV EMM4PRA Electrical Machines IV practical ENM401E EMT401E ENT401I HVE401E Engineering Management IV Engineering Mathematics IV Entrepreneurship IV High Voltage Engineering IV HVE4PRA High Voltage Engineering IV practical IPR401E LUX401E Industrial Project IV Illumination IV LUX4PRA Illumination IV practical MEQ4018 MEQ4P1F MEQ4029 Medical Equipment IV A Medical Equipment IV A Practical Medical Equipment IV B MEQ4P2G Medical Equipment IV B Practical NO. OF CREDITS PREREQUISITE SUBJECT CO- REQUISITE 0.1 MAT301W DSP4PRA 4 0 MAT301W DSP401E RAE341X & RAE3PRA 0 RAE341X & RAE3PRA 0.1 ECM401E & ECM4PRA 0.1 ECT381A & ECT3PRA 0 ECT381A & ECT3PRA 0.1 ELM381Z& ELM3PRA 0 ELM381Z & ELM3PRA ECM4PRA 4 ECM401E 4 None A X ECT4PRA 4 ECT401E 4 ELM4PRA ELM401E 0.1 MAT301W None X 0.1 EMM371R & EMM3PRA 0 EMM371R & EMM3PRA X X EMM4PRA 4 EMM401E None None MAT301W None None None ELE391X & ELE3PRA ELD371R & ELD3PRA 0 ELE391X & ELE3PRA ELD371R & ELD3PRA HVE4PRA 4 HVE401E DPJ391U & AT LEAST 4 LEVEL IV ELECTRICAL STUDY UNITS None LUX311E & LUX3PRA 0 LUX311E & LUX3PRA 0.1 MEQ3116 & MEQ3P1C 0 MEQ3116 & MEQ3P1C 0.1 MEQ3128 & MEQ3P2D 0 MEQ3128 & MEQ3P2D LUX4PRA LUX401E MEQ4P1F MEQ4018 MEQ4P2G MEQ4029 X X X X X X 79

81 SUBJECT NO. OF CREDITS PREREQUISITE SUBJECT CO- REQUISITE A SUBJECT NO. OF CREDITS PREREQUISITE SUBJECT CO- REQUISITE A MST401E Measurement Technology IV MST4PRA Measurement Technology IV practical MSD401E Micro Systems Design IV MSD4PRA Micro Systems Design IV practical MCS401E Microcontroller Systems IV MWE401E Microwave Engineering IV MWE4PRA Microwave Engineering IV practical NMS401E OPE401E Numerical Methods And Statistics IV Optoelectronics IV OPE4PRA Opto-electronics IV practical PLK401E PCE401E PCE4PRA PSY401E PSY4PRA PCT401E PCT4PRA PRS401E PRS4PRA PRT401E PRT4PRA RAD401E Plant Engineering And Legal Knowledge IV Power Electronics IV Power Electronics IV practical Power Systems IV Power Systems IV practical Process Control: Electrical IV Process Control: Electrical IV practical Process Instrumentation IV. theory Process Instrumentation IV practical Protection Technology IV Protection Technology IV practical Radar Engineering IV RAD4PRA Radar Engineering IV practical RAE401E Radio Engineering IV 0.1 EKM351X EKM341X & EKM3PRA MTR341X & MTR3PRA 0 EKM351X & EKM3PRA MTR341X & MTR3PRA 0.1 DIG331Q & DIG3PRA 0 DIG331Q & DIG3PRA 0.1 DIG331Q & DIG3PRA 0.1 RAE341X & RAE3PRA 0 RAE341X & RAE3PRA MST4PRA MST401E MSD4PRA MSD401E None X X X X X MWE4PRA 4 MWE401E MAT301W None X 0.1 ECT381A & ECT3PRA 0 ECT381A & ECT3PRA OPE4PRA 4 OPE401E None None X 0.1 PCE361U & PCE3PRA 0 PCE361U& PCE3PRA 0.1 ELE391X & ELE3PRA ELE391X & ELE3PRA 0.1 CSY391B & CSY3PRA 0 CSY391B & CSY3PRA 0.1 PRS341Z & PRS3PRA 0 PRS341Z & PRS3PRA 0.1 ELM381Z & ELM3PRA 0 ELM381Z & ELM3PRA 0.1 RAD361S & RAD3PRA 0 RAD361S & RAD3PRA 0.1 RAE341X & RAE3PRA PCE4PRA 4 PCE401E 4 PSY4PRA 4 PSY401E 4 PCT4PRA PCT401E X X PRS4PRA 4 PRS401E 4 PRT4PRA 4 PRT401E 4 RAD4PRA RAD401E X X RAE4PRA 4 RAE4PRA Radio Engineering IV practical SCM401E 0 RAE341X & RAE3PRA Satellite 0.1 RAE341X & Communications IV RAE3PRA SCM4PRA Satellite 0 RAE341X & Communications IV RAE3PRA practical SGP401E SGP4PRA SWE401I SSY401E SSM401E TVE401E TVE4PRA Signal Processing IV Signal Processing IV practical So ware Engineering IV So ware Systems IV System Simulation IV Television Engineering IV Television Engineering IV practical RAE401E 4 SCM4PRA 4 SCM401E MAT301W SGP4PRA X 0 MAT301W SGP401E X 0.1 PRG311E, SYA211E 0.1 PRG311E, SYA211E 0.1 ECT381A & ECT3PRA 0.1 TVE351V & TVE3PRAC 0 TVE351V & TVE3PRAC A - AVAILABILITY 4 - OFFERED X - NOT OFFERED? - INQUIRE ABOUT AVAILABILITY None 4 None 4 None TVE4PRA TVE401E 2.11 Magister Technologiae: Engineering: Electrical (Programme code: MTEEN) Curriculum REE501N Dissertation (Engineering: Electrical) PREREQUISITE 2.12 National Diploma: Engineering: Industrial (Programme code: NDEID) Aim of diploma The Industrial Engineering technician is involved in the investigation, improvement, design and implementation of integrated systems, comprising the optimisation of capital, plant, manpower and raw materials. The principles and techniques of engineering, industrial economics and management are utilised to design the systems to obtain the desired physical and economical results Admission requirements See admission requirements for the School of Engineering. X X X 80

82 Duration of course A minimum of four years. The Diploma will be awarded a er 24 subjects have been passed and the Work integrated learning has been completed satisfactorily. In this instance, students are required to submit a valid First Aid Certificate for a basic course which must be obtained on own initiative and does not form part of the work integrated learning course. See PLANNING YOUR STUDIES The curriculum is fixed and all 24 subjects are compulsory as given in Parts 1 to 4. The recommended number of subjects per academic year should not exceed 7 (i.e. 7 theory subjects together with the corresponding practical components where applicable). Preferably, students should register for both the theoretical and practical components of a subject simultaneously. PART FLM271S Facility Layout and Materials Handling 14. MFR291R Manufacturing Relations ENN103F or KVH171Y II 15. EWS271L Engineering Work Study EWS121Q II 16. PEI281S Production Engineering: PEI191V Industrial II 17. CTG2M1F Costing II (Module 1) MAT181Q CTG2M2F Costing II (Module 2) 18. QAS221U Quality Assurance II QUT151Z PART Curriculum PART 1 1. MAT181Q Mathematics I See Note 1 2. MCA141Z Mechanics I and See Note 1 MCA1PRA Mechanics I 3. MED161Q Mechanical Engineering See Note 1 Drawing I 4. ENN103F English for academic purposes See Note 2 5. CEM101A End-user computing See Note 3 6. MME141X MME1PRA PART 2 7. ELC161X ELC1PRA Mechanical Manufacturing Engineering I and Mechanical Manufacturing Engineering I Electrotechnology I Electrotechnology I 8. EWS121Q Engineering Work Study I 9. PEI191V Production Engineering: Industrial I 10. MME251U MME2PRA Mechanical Manufacturing Engineering II and Mechanical Manufacturing Engineering II 11. QUT151Z Qualitative Techniques I 12. SOM251R SOM2PRA Strenght of Materials II and Strength of Materials II See Note 4 MME141X See Note 4 MCA141Z Co-requisite: MCA1PRA 19. MEE231V Mechanical Engineering MED161Q Design II 20. EWS381G Engineering Work Study EWS271L, FLM271S, III CTG2M1F, CTG2M2F 21. IAC323X Industrial Accounting III CTG2M1F and CTG2M2F 22. OPR371S Operational Research III PEI281S and QUT151Z 23. ATO331Q Automation III MME251U and MME2PRA 24. IDL351L Industrial Leadership III MFR251U PRACTICAL COMPONENT: The practical component is done at approved laboratories country wide as arranged by Unisa or the student. The laboratory experience should preverably be gained in conjunction with theoretical learning. NOTE 1 Contact sessions may be offered. Students will be informed of these sessions if so arranged by the lecturer. NOTE 2 Students having difficulty with English studies may also access the Unisa Academic Literacy Centres for further assistance. NOTE 3 Students must have access to a computer, printer and the necessary so ware for ± 2 hours per week. Also see requirements for IT related study units. NOTE 4 Students that have successfully completed IDP101E may apply to be exempted from MME1PRA and MME2PRA Work Integrated Learning: Engineering: Industrial Work integrated learning (WIL) is done with a company that can provide training as indicated in the log-book, mentors guide and student guide for Industrial Engineering Practice I (IDP101E) and Industrial Engineering Practice II (IDP201E). Students may register for both modules simultaneously. It is recommended that students first seek employment prior to registering for these modules. Work integrated learning is monitored by a log-book and mentor system. The mentor system comprises a person from within the company with whom the WIL component is done and a delegate from Unisa who will visit the company during the training period. 81

83 PART 5 82 KODE WORK INTEGRATED LEARNING DURATION IDP101E Industrial Engineering Practice I 26 weeks IDP201E Industrial Engineering Practice II 26 weeks CURRICULA A guideline is provided giving the major topics to be covered with the anticipated time that should be spent on each topic Industrial Engineering Practice I: IDP101E ITEM DESCRIPTION Orientation including one-day NOSA course First Aid Certificate Drawing Interpretation Workshop Practice: Hand tools Measuring equipment Turning Milling Welding Brazing On-the-job training Practical workshop experience Planning and handling of material Maintenance experience Production and construction experience Inventory control and storage Project work Industrial Engineering Practice II: IDP201E ITEM DESCRIPTION Project and Systems development work: Gathering, processing, and interpretation of data. Productivity improvement studies Plant/office layout and design Equipment selection and evaluation Mechanisation and automation Materials handling analysis and design Improvement and feasibility studies DURATION 1 week 1 week 3 weeks 9 weeks 12 weeks 26 weeks DURATION 26 weeks 26 weeks 2.13 Baccalaureus Technologiae: Engineering: Industrial (Programme code: BTENI) Aim of qualification Persons achieving this qualification should be competent in leading programmes involving productivity improvement, integrated manufacturing systems, operating information systems, and those of project and logistic management. The qualified person will be able to register with ECSA as a professional Industrial Engineering Technologist Admission requirements 1. A National Higher Diploma: Industrial Engineering (T4) OR 2. A National Diploma: Engineering: Industrial (S4) OR 3. A National Diploma: Industrial Engineering (T3-diploma) as well as the following study units from the National Diploma: Engineering: Industrial (S4): I) Industrial Leadership III II) Automation III or Industrial Technology II III) Operational Research III IV) Industrial Accounting III V) Quality Assurance II 4. Students who hold any other approved National Diploma in Engineering (except the ND: Engineering: Industrial) and who want to study BTech: Engineering: Industrial, must first complete the Higher Certificate: Industrial Engineering successfully. Refer to the Short Learning Programmes Calendar. These students will not be allowed to study one of the optional specialisation fields of the BTech but must complete all eight prescribed industrial engineering study units (Option 2) Curriculum The curriculum comprises the following 8 compulsory modules: 1. PRT401I Production Technology Compulsory IV 2. PRE401I Project Engineering IV Compulsory 3. PTR401I Project Research IV 4. LGE401I Logistics Engineering IV 5. QAS401I Quality Assurance IV 6. INY401I Information Systems IV 7. SDY401I Systems Dynamics IV 8. ENT401I Entrepreneurship IV 2.14 National Diploma: Engineering: Mechanical (Programme code: NDEMC) Aim of diploma A career in Mechanical Engineering will expose you to machines, vehicles, ships or aircra. As part of a mechanical engineering team you will become involved in design, development and manufacture of a wide variety of components and systems. You will also be exposed to and eventually be responsible for organising the running of industrial installations and/or process plants Admission requirements See admission requirements for the School of Engineering Duration of course A minimum of four years. The Diploma will be awarded a er 26 subjects have been passed and the work integrated learning has been completed satisfactorily. In this instance, students are required to submit a valid First Aid Certificate for a basic course which must be obtained on own initiative and does not form part of the work integrated learning course. See PLANNING YOUR STUDIES The recommended number of subjects per academic year should not exceed 7 (i.e. 7 theory subjects together with the corresponding practical components where applicable). Preferably, students should register for both the theoretical and practical components of a subject simultaneously.

84 Curriculum PART 1 1. MAT181Q Mathematics I++ See Note 1 2. MCA141Z MCA1PRA Mechanics I and Mechanics I 3. MED161Q Mechanical Engineering Drawing I 4. ENN103F English for academic purposes See Note 1 See Note 1 See Note 2 5. CEM101A End-user computing See Note 3 6. ITV151I Information Technology Skills I 7. MME141X MME1PRA 8. ELC161X ELC1PRA PART 2 Mechanical Manufacturing Engineering I Mechanical Manufacturing Engineering I Electrotechnology I and Electrotechnology I (Practical #) See Note 3 See Note 4 9. MAT291X Mathematics II++ MAT181Q 10. ELC271S ELC2PRA Electrotechnology II and Electrotechnology II (Practical #) 11. MEE231V Mechanical Engineering Design II SOM251R SOM2PRA 13. FMC201U FMC2PRA 14. MOM251Z MOM2PRA 15. THD291Z THD2PRA 16. MME251U MME2PRA Strength of Materials II and Strength of Materials II (Practical #) Fluid Mechanics II and Fluid Mechanics II (Practical #) Mechanics of Machines II and Mechanics of Machines II (Practical #) Thermodynamics II and Thermodynamics II (Practical #) Mechanical Manufacturing Engineering II Mechanical Manufacturing Engineering II OPTIONAL STUDY UNIT ELC161X Co-requisite: ELC1PRA MED161Q MCA141Z Co-requisite: MCA1PRA MCA141Z Co-requisite: MCA1PRA MCA141Z Co-requisite: MCA1PRA MCA141Z Co-requisite: MCA1PRA MME141Z See Note SOM381A SOM3PRA 19. FMA301A FMA3PRA 20. MOM371A MOM3PRA 21. THD311A THD3PRA PART 4 Strength of Materials III and Strength of Materials III (Practical #) Fluid Mechanics III and Fluid Mechanics III Mechanics of Machines III and Mechanics of Machines III (Practical #) Thermodynamics III and Thermodynamics III (Practical #) SOM251R Co-requisite: SOM2PRA FMC201U Co-requisite: FMC2PRA MOM251Z Co-requisite: MOM2PRA THD291Z Co-requiste: THD2PRA 22. SOM381B Applied Strength of SOM381A Materials III and Co-requisite: SOM3PRB SOM3PRB Applied Strength of Materials III (Practical #) 23. FMA331B FMA3PRB Hydraulic Machines III and Hydraulic Machines III (Practical #) FMA301A Co-requiste: FMA3PRA 24. MOM381B MOM3PRB 25. THD321B THD3PRB Theory of Machines III and Theory of Machines III (Practical #) Steam Plant III and Steam Plant III (Practical #) MOM371A Co-requisite: MOM3PRA THD311A Co-requisite: THD3PRA 26. CHOOSE ONE OF THE FOLLOWING: MAT301W Mathematics III MAT291X ELC391A ELC3PRA Electrotechnology III Electrotechnology III ELC271S Co-requisite: ELC2PRA PRACTICAL COMPONENT: The practical component is done at approved laboratories country wide as arranged by Unisa or the student. The laboratory experience should preferably be gained in conjunction with theoretical learning. NOTE 1 Contact sessions may be offered. Students will be informed of these sessions if so arranged by the lecturer. NOTE 2 Students having difficulty with English studies may also access the Unisa Academic Literacy Centres for further assistance. NOTE 3 Students must have access to a computer, printer and the necessary so ware for ± 2 hours per week. Also see requirements for IT related study units. CAD161S Computer Aided Draughting I Co- requisite: Mechanical Engineering Drawing I (MED161Q) See Note 3 NOTE 4 Students that have successfully completed MCP101E may apply to be exempted from MME1PRA and MME2PRA. PART MEA351A Mechanical Engineering Design III MEE231V Optional subjects To align the new Diploma to the Higher Education Qualifications Framework (HEQF) and the Engineering Council of South Africa 83

85 (ECSA) documents, the curricula for Mechanical Engineering has been restructured as indicated above Parts 1 to 4. Hense, the following subjects previously offered under Parts 2 and 3 (See Calendar Part 7 of 2007) have been grouped as shown in Table 1 below. The last registration period for these subjects will be December 2007 to March TABLE 1 SUBJECT PREREQUISITE MEG101T Maintenance engineering I MAT181Q or STA191Q MSA1M1U MSA1M2U STA191Q PEM111M Management skills I: Module A and Module B Statistics I Production engineering: Mechanical I CAD161S Computer aided dra ing I MED161Q For Computer aided dra ing I (CAD161S) students must have access to the following: Pentium or 486DX with 16 MB Ram Windows 3.1 or Windows NT with 32 MB Ram AutoCad Release 13 or Student Release 13 Inkjet or Laser Printer The OPTIONAL subjects previously offered under Part 4 (see Calendar Part 7 of 2007) are shown in Table 2 below. The last registration period for these subjects will be December 2008 to March TABLE 2 SUBJECT PREREQUISITE PEM211M Production engineering: PEM111M Mechanical II MEG291X Maintenance engineering II MEG101T MME381B Mechanical manufacturing MME251U engineering II MEA361B Machine design III MEA351A The subjects listed in Tables 1 and 2 will, in future, be structured into Short Learning Programmes enquire at the Department of Mechanical and Industrial Enginering at Work Integrated Learning: Engineering: Mechanical Work integrated learning (WIL) is done with a company that can provide training as indicated in the log-book, mentors guide and student guide for Mechanical Engineering Practice I (MCP101E) and Mechanical Engineering Practice II (MCP201E). Students may register for both modules simultaneously. It is recommended that students first seek employment prior to registering for these components. Work integrated learning is monitored by a log-book and mentor system. The mentor system comprises a person from within the company with whom the WIL component is done and a delegate from Unisa who will visit the company during the training period. PART 5 WORK INTEGRATED LEARNING DURATION MCP101E Mechanical Engineering Practice I 26 weeks MCP201E Mechanical Engineering Practice II 26 weeks EXEMPTIONS Students in possession of a trade certificate may apply to be exempted for MCP101E. Students in possession of a Mechanical Certificate of Competency (GCC) may apply to be exempted for both MCP101E and MCP201E modules. CURRICULA A guideline is provided giving the major topics to be covered with the anticipated time that should be spent on each topic. 2.1 Mechanical Engineering Practice I: MCP101E ITEM DESCRIPTION Orientation - including a one-day NOSA course First Aid Certificate Drawing Interpretation Workshop Practice: Hand tools Measuring equipment Turning Milling Welding Brazing On-the-job training: Practical workshop experience Planning and handling of material Maintenance experience Production and construction experience Inventory control and storage Project work 2.2 Mechanical Engineering Practice II: MCP201E ITEM DESCRIPTION Project and Systems development work: Gathering, processing, and interpretation of data. Productivity improvement studies Plant/office layout and design Equipment selection and evaluation Mechanisation and automation Materials handling analysis and design Improvement and feasibility studies Engineering Equipment and systems Alignment of mechanical systems Hydraulic and pneumatic systems Propulsion systems Bearings and lubrication Electrical systems Vibration, measurement and balancing Pumps Compressors Valves Biolers Water treatment Air conditioning and refrigeration CNC machining Robot systems Casting TIME PERIOD 1 week 1 week 3 weeks 9 weeks 12 weeks 26 weeks DURATION 13 weeks 13 weeks 26 weeks Experience should be gained in the engineering equipment and systems listed below, with the view to generating projects and systems development reports, using the following methods: PROJECT AND SYSTEMS DEVELOPMENT WORK: EG Gathering, processing and interpretation of data Productivity improvement studies Plant/office layout and design Equipment selection and evaluation 84

86 PROJECT AND SYSTEMS DEVELOPMENT WORK: EG Mechanisation and Automation Materials handling analysis and design Improvement projects, feasibility studies, execution and report writing Engineering equipment and systems Alignment of mechanical systems Pneumatics and Hydraulics Propulsion prime secondary Bearings and lubrication Electrical Vibration analysis, measurement and balancing Pumps Compressors Valves - safety operational remote controller Boilers Water treatment Air condtioning and refrigeration CNC machining lathe milling machine work centre cu ing AGV and Robots Advanced welding Casting Specialised manufacturing Duration 26 weeks 2.15 Baccalaureus Technologiae: Engineering: Mechanical (Programme code: BTMEE) Aim of qualification Persons achieving this qualification should be able to independently integrate mechanical engineering principles and specialist knowledge, apply these to determine appropriate ways of approaching activities and establish and use criteria to judge processes and outcomes. This qualification is intended for engineering practitioners in the industry Admission requirements A National Diploma: Engineering : Mechanical (S4 diploma); or A National Higher Diploma: Mechanical Engineering (T4 diploma); or A National Diploma: Mechanical Engineering (T3 diploma) with the following S4 subjects: Theory of Machines III Applied Strength of Materials III Hydraulic Machines III Steam Plant III Mathematics III or Electrotechnology III Foreign Mechanical Engineering Qualifications are considered but subject to SAQA evaluation and departmental approval. 1. & & Curriculum ECD401M NOTES EDP401M Engineering concept design IV Engineering design project IV any three of the following combinations: MOM401M AUC401M SOM401M STA401M FMA401M TMA401M THD401M RAC401M Mechanics of Machines IV and Automatic Control IV Strength of Materials IV and Stress Analysis IV Fluid Mechanics IV and Turbo Machines IV Thermodynamics IV and Refrigeration and Air Conditioning IV Students must register for both modules simultaneously. MOM381B and MOM3PRB SOM381B and SOM3PRB FMA301A and FMA311B Note 1: Students must have access to a computer. THD321B and THD3PRB Optional subjects The following subjects previously offered under (See Calendar Part 7 of 2007) are shown in Table 1 below. The last registration period for these subjects will be December 2007 to March TABLE 1 SUBJECT PREREQUISITES EEN101M Environmental engineering MMN101M Maintenance management MEG291X MMT401M Manufacturing management IV The subjects listed in Table 1 will, in future, be incorporated into Short Learning Programmes enquire at the Department of Mechanical and Industrial Engineering at National Certificate Programmes 3.1 National Certificate: Water Care (Programme code: NCWAE) Admission requirements Grade 12 (Matriculation, national senior certificate, N3 or other certificate evaluated as being equivalent to the minimum admission requirements) including English, Science and Mathematics. Tertiary Preparation courses are available to assist students to obtain entry levels Duration of course A minimum of one year. The degree will be awarded a er the eight components/subjects have been passed. 85

87 3.1.2 Aim of certificate The aim of this course is to expose the students to the activities of water industry, sources and characteristics of waste water as well as the collection, treatment and disposal thereof. It furthermore concentrates on the purification and treatment of drinking water. Generally the students should understand the basic treatment processes, methods of storage and distribution of treated water Curriculum PMW1M1T PMW1M2T Principles of Management: Water I (Two modules): Module A Module B 2. KVH171Y Communication Skills I 3. CPK151V Computer Skills I See note 1 CPKPRAC Computer Skills I 4. MCB141Q MCB1PRA Microbiology I and Microbiology I 5. CHE181T CHE1PRA 6. FIC181C FIC1PRA Chemistry I and Chemistry I Physics I and Physics I 7. CAS161Z Calculations and Statistics 8. WCT131S Water Care Technology I See Note 2 Both modules are compulsory PRACTICAL STUDY UNITS 1. Registration fees are payable for all the practical study units. 2. The practical component is done at approved laboratories country wide as arranged by College of Science, Engineering and Technology or the student. The laboratory experience is gained in conjunction with theoretical learning. 3. Additional a endance fees are payable for the practicals. More details are given in the tutorial le ers. NOTES 1. Both modules must be completed to obtain credit for this course. Modules can be completed concurrently or in different years. Access to a personal computer is compulsory for the Practical. See Calendar Part 2 for detailed instruction on the Practical. 2. Water Care Technology I must be followed in the last year of study. A 4. Government Certificate Of Competency Admission requirements A candidate for the Government Certificate of Competency must: 1. be at least 23 years of age; and 2. have a National Diploma : Engineering : Mechanical or Electrical with subject selection as given below; and 3. have two years post diploma experience in maintenance and operation of mechanical and/or electrical machinery. Wri en application for admission to the examination for the Certificate must be made to : FACTORIES MINES AND INDUSTRIES Department of Manpower Department of Mineral and Energy Affairs Chief Directorate : Private Bag X59 Occupational Safety PRETORIA Private Bag X PRETORIA 0001 The wri en application must also include a le er stating that all the prescribed theoretical requirements have been completed. This le er may be obtained from the School of Engineering at UNISA. Students, who wish to study towards the certificate, can enroll for study units in the following three disciplines: 1. ELECTRICAL ENGINEERING (See Programme Code: NDEEN) 2. MECHANICAL ENGINEERING (See Programme Code: NDEMC) 3. COMBINATION OF 1 and2. NOTE: The following are suggested subject selections for the three disciplines. Students are advised to contact the Department of Manpower or Mineral and Energy Affairs for confirmation of acceptance. 4.1 Government Certificate Of Competency: Electrical Engineering PART 1 ELE171U ECT151R DIG111Z MAT181Q MCA141Z KVH171Y CPK151V PART 2 ELE281X EMM261R ECT261Z MAT291X SOM251R MTC111E PART 3 ELE391X EMM371R MED161Q INE211E SOM381A MTC211E PART 4 ELD371R ELM381Z PCE361U DPJ391U MTC311E SOM381B Electrical Engineering I Electronics I Digital Systems I Mathematics I Mechanics I Communication Skills I Computer Skills I Electrical Engineering II Electrical Machines II Electronics II Mathematics II Strength of Materials II Mechanical Technology I Electrical Engineering III Electrical Machines III Mechanical Engineering Drawing I Industrial Electronics II Strength of Materials III Mechanical Technology II Electrical Distribution III Electrical Protection III Power Electronics III Design Project III Mechanical Technology III Applied Strength of Materials III 4.2 Government Certificate Of Competency: Mechanical Engineering PART 1 MCA141Z MME141X MAT181Q ELC161X KVH171Y CPK151V MED161Q Mechanics I Mechanical Manufacturing Engineering I Mathematics I Electrotechnology I Communication Skills I Computer Skills I Mechanical Engineering Drawing I 86

88 PART 2 SOM251R MOM251Z FMC201U THD291Z MEE231V ELC271S PART 3 SOM381A MOM371A FMA301A THD311A ELC391A MEG101T PART 4 SOM381B MOM381B FMA331B THD321B EMM261R MEG291X or ECT151R Strength of Materials II Mechanics of Machines II Fluid Mechanics II Thermodynamics II Mechanical Engineering Design II Electrotechnology II Strength of Materials III Mechanics of Machines III Fluid Mechanics III Thermodynamics III Electrotechnology III Maintenance Engineering I Applied Strength of Materials III Theory of Machines III Hydraulic Machines III Steam Plant III Electrical Machines II Maintenance Engineering II Electronics I Professional status can be gained a er three years post-btech-degree experience as a Professional Technologist (Engineering) with ECSA, abbreviated Pr Tech (Eng). Enquiries can be directly addressed to ECSA : Tel : Fax: E mail: [email protected] 6. Non-formal Programmes Please refer to the brochure for Short Learning Programmes 4.3 Government Certificate Of Competency: Multi-discipline PART 1 MAT181Q MCA141Z MED161Q CPK151V KVH171Y MME141X ELC161X PART 2 SOM251R MOM251Z FMC201U THD291Z ELC271S MEE231V PART 3 SOM381A MOM371A FMA301A THD311A ELC391A EMM261R PART 4 SOM381B FMA331B THD321B ELD371R MOM381B EMM371R Mathematics I Mechanics I Mechanical Engineering Drawing I Computer Skills I Communication Skills I Mechanical Manufacturing Engineering I Electrotechnology I Strength of Materials II Mechanics of Machines II Fluid Mechanics II Thermodynamics II Electrotechnology II Mechanical Engineering Design II Strength of Materials III Mechanics of Machines III Fluid Mechanics III Thermodynamics III Electrotechnology III Electrical Machines II Applied Strength of Materials III Hydraulic Machines III Steam Plant III Electrical Distribution III Theory of Machines III Electrical Machines III 5. Registration with the Engineering Council of South Africa (ECSA) Registration with ECSA is a statutory requirement when consulting work is performed. However, because a registered person is bound not only by legal requirements but also by an ethical code of conduct, registration is invariably beneficial to any person because of the greater trust enjoyed by the private and public sectors. Application for registration as a Registered Engineering Technician (Reg. Eng. Tech.) is possible a er two years post-diploma experience. 87

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