The 2016 Monash University Handbook will be available from October 2015. This document contains interim 2016 course requirements information.

Bachelor of Science Detailed Course Requirements The 2016 Monash University Handbook will be available from October 2015. This document contains interim 2016 course requirements information. Description Course outcomes Course requirements Progression to honours Majors and Minors Applied biochemistry Environmental science Microbiology Applied mathematics Financial and insurance mathematics Molecular biology Applied microbiology Genetics Pharmacology Astrophysics Geographical science Physics Atmospheric science Geosciences Physiology Biochemistry Human pathology Plant sciences Biotechnology Immunology Psychology Chemistry Materials science Pure Mathematics Computational science Mathematical statistics Tropical environmental biology Developmental Biology Mathematics Zoology Ecology and conservation biology Medicinal chemistry Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 1 of 71

Description The Bachelor of Science course will provide you with a broad, general science education, as well as specialist training in one or more science disciplines. The flexibility of the course and the wide range of majors and minors will allow you to explore new areas, further develop your strengths in science, and pursue your interests beyond the area in which you specialise. You will receive training in generic competencies critical thinking, problem solving, quantitative and information literacy, communication and presentation skills, and the capacity to work in teams and will develop knowledge and skills in at least one science discipline. This will ensure that you have a firm foundation for a career in science or in allied fields where scientific understanding and skills are central. As a graduate you will be equipped for a variety of careers or for honours and postgraduate study. You will be able to pursue employment opportunities in any of the traditional and emerging careers for scientists in the public, private and not-for-profit sectors, and apply for positions in a diverse range of fields. Some examples of these include journalism and publishing, business research and analysis, public relations and marketing, banking and finance, human resources, training and development, public or civil services, diplomacy, public policy makers, social and community services, counselling, and social welfare. Course outcomes These course outcomes are aligned with the Australian Qualifications Framework level 7, the Bologna Cycle 1 and Monash Graduate Attributes. Upon successful completion of this course, it is expected that you will be able to: demonstrate broad knowledge and technical skills in at least one area of science, and a basic understanding of science disciplines other than those in which you major develop, apply, integrate and generate scientific knowledge in professional contexts to analyse challenges and to develop effective solutions demonstrate understanding of the importance of science to the human endeavour collect, organise, analyse and interpret data meaningfully, using mathematical and statistical tools as appropriate to the discipline of your major(s) convey ideas and results effectively to diverse audiences and in a variety of formats work and learn both independently and collaboratively to encompass diverse abilities and perspectives exercise personal, professional and social responsibility as a global citizen. Course requirements Students must complete units as specified in Parts A, B and C (144 points): a minimum of 96 points of Bachelor of Science listed study over Part A and Part B, and 48 points of free electives in Part C. In choosing your 96 points of Bachelor of Science listed study over Part A and Part B, you must ensure that you complete six science listed units (36 points) at level 1 and 10 science listed units (60 points) at levels two and three, with a minimum of four (24 points) at level three. You must also ensure that across the whole course, you complete no more than 10 level one units (60 points), and at least six level three units (36 points). The course progression maps will assist you to plan how to meet the course requirements. Units are 6 points unless otherwise specified. A. Science specified study (48 points) YEAR ONE a) At least two level one approved science sequences (24 points) from the following list. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 2 of 71

Normally, the units in a level one sequence are required for the completion of a related minor or major. The choice of level one sequences will influence your choice of level two and level three units and lay the foundation for your major. If you are studying a single degree course, it is recommended that you take a third level one sequence in your first year to increase your options for choice of major. (Generally, students completing a double degree course will not be able to fit in three level one sequences unless one of them is mathematics.) Biological sciences One pair of: BIO1011 Biology I and BIO1022 Biology II BIO1011 Biology I and BIO1042 Environmental biology Chemistry One pair of: CHM1011 Chemistry I and CHM1022 Chemistry II CHM1011 Chemistry I and CHM1052 Chemistry II advanced CHM1051 Chemistry I advanced and CHM1022 Chemistry II CHM1051 Chemistry I advanced and CHM1052 Chemistry II advanced Computational science FIT1029 Algorithmic problem solving and FIT1040 Programming fundamentals Geosciences ESC1011 Planet earth: Our space in the universe and ESC1022 Planet earth: Surface processes Geographical science One pair of: ATS1310 Extreme earth! Natural hazards and human vulnerability and ATS1301 Australian physical environments: Evolution, status and management ATS1310 Extreme earth! Natural hazards and human vulnerability and ATS1309 The global challenge Mathematics and statistics One pair of: MTH1020 Analysis of change and MTH1030 Techniques for modelling MTH1030 Techniques for modelling and MTH2010 Multivariable calculus MTH1030 Techniques for modelling and MAT1830 Discrete mathematics for computer science STA1010 Statistical methods for science and MTH1030 Techniques for modelling Note: Students with a strong mathematics background and an interest in the subject could replace the units MTH1030 and MTH2010 with their advanced versions MTH1035 and MTH2015 respectively. Students will need to seek permission to enrol in these units at the Science Student Services office. Physics One pair of: PHS1011 Physics and PHS1022 Physics PHS1080 Foundation physics and PHS1022 Physics Psychology PSY1011 Psychology 1A and PSY1022 Psychology 1B b) At least one of the following level one mathematics or statistics unit* (6 points) if not already taken as part of a level one approved sequence: MTH1020 Analysis of change MTH1030 Techniques for modelling MTH1035 Techniques for Modelling (advanced) SCI1020 Introduction to statistical reasoning STA1010 Statistical methods for science *Note 1: The unit required in b) will depend on your mathematics background and interests: SCI1020 Introduction to statistical reasoning and STA1010 Statistical methods for science Recommended for students planning to study areas where experimental design and data analysis skills are particularly Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 3 of 71

important, such as the life sciences. SCI1020 is for students without a strong mathematics background, while STA1010 requires students to have studied VCE Mathematical Methods Units 3 and 4 (or equivalent). MTH1020 Analysis of change and MTH1030 Techniques for modelling Recommended for students with an interest in mathematics and/or physics. MTH1020 requires students to have studied VCE Mathematical Methods (or equivalent). MTH1030 requires students to have studied VCE Specialist Mathematics (or equivalent) or MTH1020. Students with a strong mathematics background and a keen interest in the subject You could replace the unit MTH1030 with the advanced version MTH1035. You will need to seek permission to enrol in this unit at the Science Student Services office. Note 2: Students in a double degree course with Commerce, Commerce Specialist, Engineering or Computer Science do not complete b) because they study equivalent mathematics in those courses (that is, ETC100, ENG1901 and MAT1841). c) Any additional level one units (usually one or two) required to take the total level one science-listed units to 36 credit points*. Science listed units are those under any major, extended major or minor offered in the Bachelor of Science. *Note: Students in a double degree course can replace one level one science listed unit with a level two or level three science listed unit. YEARS TWO and THREE d) One unit (6 points) from: SCI2010 Scientific practice and communication SCI2015 Scientific practice and communication (advanced). c) Any additional units (usually two to four) required to make the total level two and three Bachelor of Science listed units to 60 points (inclusive of the unit in part d) and the units in your major in Part B), with at least 24 points at level three, chosen from: units listed under any major, extended major or minor offered in the Bachelor of Science SCI3910 Schools science project. B. Science listed Major (48 points) Complete at least one science listed major. A major requires eight units with no more than two units at level one (12 points) and at least three units (18 points) at level three. You may replace the major with an extended major by using the elective units available in Part A or Part C. Click on the Bachelor of Science listed areas of study (in the table above) for units required for your chosen major, extended major or minor. It is recommended that you consider completing level two units in more than one area of science to maximise your choice of major at level three. If you intend to undertake an honours year you should ensure you complete the specific units required as a pre-requisite for honours in your chosen major area of study. C. Free elective study (48 points) Your elective units may be chosen from remaining units available in the Bachelor of Science course including to extend your major or to complete a second major or a minor(s). Note that, at most, two level one units may be counted towards two majors or a major and a minor. Elective units may also be taken from non-science disciplines to broaden your knowledge or to complete a major or minor(s) from another course as long as you have the prerequisites and there are no restrictions on enrolment in the units. For students in double degree courses, some units required for the partner degree are credited as electives towards the Science degree. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 4 of 71

Progression to honours Students successfully completing the Bachelor of Science may proceed to a one year honours program leading to the Bachelor of Science (Honours). To be eligible to apply for entry into the Bachelor of Science (Honours), students must obtain a distinction grade average (70 percent) or above in 24 points of studies in relevant units at level three, which will normally include at least 18 points of units in the discipline in which you wish to undertake honours. In addition, some majors require at least four level 3 units in the major and/or particular level 3 elective units to be taken for admission to honours. Majors and minors For a description of the majors and minors click on the relevant link below. Bachelor of Science listed area of study Availability and location Minor Major Extended major Biological and life sciences Ecology and conservation biology Clayton Clayton Clayton Genetics Clayton, Malaysia Clayton Clayton Plant sciences Clayton Clayton Tropical environmental biology Malaysia Malaysia Zoology Clayton Clayton Biomedical and behavioural sciences Applied biochemistry Malaysia Malaysia Applied microbiology Malaysia Malaysia Biochemistry Clayton Clayton Clayton Biotechnology Malaysia Malaysia Developmental biology Clayton Clayton Human pathology Immunology (Foundation studies in Chemistry required) Clayton Clayton Clayton Clayton Microbiology Clayton Clayton Clayton Molecular biology Clayton Pharmacology Clayton Clayton Physiology Clayton Clayton Psychology Clayton, Malaysia Clayton, Malaysia Clayton, Malaysia Earth and environmental sciences Atmospheric science (Minor in mathematics required) Environmental science Clayton Clayton Clayton Geographical science Clayton Clayton Clayton Geosciences Clayton Clayton Clayton Mathematical and computational sciences Applied mathematics Clayton Clayton Computational science (Foundation studies in mathematics required) Clayton, Malaysia Clayton Clayton Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 5 of 71

Financial and insurance mathematics Clayton Mathematical statistics Clayton Clayton Clayton Mathematics Clayton Clayton Clayton Pure Mathematics Clayton Clayton Clayton Physical and chemical sciences Astrophysics Clayton Clayton (Minor in mathematics required) Chemistry Clayton, Malaysia Clayton Clayton Materials science Clayton Clayton Medicinal chemistry Malaysia Physics (Minor in mathematics required) Clayton Clayton Clayton Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 6 of 71

APPLIED BIOCHEMISTRY Description Applied biochemistry deals with the chemical components and genetic material of living cells in order to understand the molecular events that underlie all biological processes. These are important in human and animal biology, medicine, agriculture, forensic science and biotechnology. Applied biochemistry opens up our understanding of the causes of disease and provides the basis of the development of effective treatments. Applied biochemistry at Monash Malaysia covers a broad scope of topics, including Cellular metabolism, Recombinant DNA technology, Medical cell biology, Molecular biology and biotechnology and Medicinal chemistry. As biochemistry is the basis of all biological sciences, graduates will have a wide-range of job opportunities. These include analytical or research roles in the pharmaceutical industry, biotechnology industry, universities or hospital labs, agricultural organisations, government organisations or environmental consultancies. Availability Applied biochemistry is listed in the Bachelor of Science at Malaysia as a minor or a major. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: demonstrate broad knowledge of the biomolecules, machinery and information flow within living cells, and an appreciation of how these underpin all biological processes, in both normal and diseased states demonstrate knowledge of key facets of modern biochemistry including: proteins and structural biology, bioinformatics, advanced molecular biology, cell organisation, signal transduction and its role in diseases such as cancer; and the identification of drug targets demonstrate proficiency in core biochemical laboratory techniques, understanding both the principles and applications of these methods within the molecular biosciences Minor requirements (24 points) a) The following units: BIO1011 Biology I CHM1051 Chemistry I advanced BTH2741 Biochemistry BTH2732 Recombinant DNA technology or BTH2752 Cellular metabolism Major requirements (48 points) No more than 12 points may be at level one and at least 18 points must be completed at level three. a) The requirements of a minor in applied biochemistry (24 points) b) Four additional units (24 points) from: BTH2732 Recombinant DNA technology or BTH2752 Cellular metabolism BTH2752 Cellular metabolism BTH3741 Medical cell biology BTH3752 Molecular biology and biotechnology CHM3930 Medicinal chemistry or SCI3990 Science in action research project Requirements for honours in applied biochemistry Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 7 of 71

24 points of relevant level three units, of which normally 18 points are from the units listed under the Major. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 8 of 71

APPLIED MATHEMATICS Description Applied mathematics is concerned with utilising mathematical techniques and models to obtain practical solutions to concrete problems. This may help explain observations, or predict what may happen in the future. Applications of mathematics span most branches of modern science, engineering, information technology and commerce. In particular, biology and medicine are important emerging areas where a mathematical approach can reveal new knowledge. Applied mathematicians do not just rely on existing mathematical theories and techniques often they need to develop new theories or adapt existing approaches to the specific application. They try to view problems in an abstract form, so they can identify links with other applications and build upon the existing knowledge. They also use computational techniques to understand the solution better and reveal its properties. A key feature of applied mathematics is its emphasis on the mathematical techniques and approaches used, and what they are able to reveal about each application, rather than a detailed understanding of the application area itself. The School of Mathematical Sciences offers a comprehensive program of mathematics units at all undergraduate levels. It encompasses a wide range of areas of modern mathematics, from mathematical methods to statistics to pure mathematics, as well as demonstrating the applications of mathematics across a variety of fields. In addition to the major and extended major in applied mathematics, a broader major and extended major is offered in mathematics, along with specialised programs in mathematical statistics, pure mathematics and financial and insurance mathematics. There are cross links between applied and pure mathematics and statistics, and this is reflected in the mix of units that students can select to complete a major or extended major. Our curriculum is continuously updated to ensure that our students are exposed to the latest developments in mathematics, and acquire skills relevant to the current needs of industry. Applied mathematics is used to solve problems from many branches of science, engineering, information technology and commerce. For example, it can help understand how cells divide, generate new financial tools, or predict weather. By studying applied mathematics at university, students will also develop general skills in problem-solving, critical thinking, modelling, learning, analysis, research and creativity, which can be used wherever their career may take them. Mathematics and statistics are also the two cornerstones for decision making and quantitative activities in commerce, industry, education and defence. Successful companies and organisations know their competitive edge depends on the analytical and quantitative skills of their workforce, and therefore seek employees with a sound mathematical training. Applied mathematics graduates work in a variety of fields, such as the finance, computing and insurance industries, medical and scientific research, the public service, journalism and teaching. Availability Applied mathematics is listed in the Bachelor of Science, the Bachelor of Science Advanced Global challenges (Honours) and the Bachelor of Science Advanced Research (Honours) at Clayton as a major or extended major. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: display basic knowledge and key technical skills in advanced calculus, linear algebra, differential equations and computational methods as well as high-level knowledge of and skills in the important techniques, terminology and processes of applied mathematics; develop, apply, integrate and generate knowledge through abstraction and insight, and use highlevel critical thinking skills to model, analyse, use and interpret the mathematics that arises across a range of applications in science, medicine, economics or engineering; demonstrate skills in the written presentation of a mathematical argument that enable mathematical models, concepts, processes and results to be communicated effectively to diverse audiences. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 9 of 71

Major requirements (48 points) No more than 12 points may be at level one and at least 18 points must be completed at level three. a) The requirements of a minor in mathematics (24 points) that includes MTH2032 Differential equations with modelling b) The following unit (6 points) MTH2021 Linear algebra with applications or MTH2025 Linear algebra (Advanced) (if not already completed for the minor). If the requirement for MTH2021 was met as part of the minor, replace it with a unit from the Elective list below c) Three level three units (18 points) from the following list including at least two from MTH3011, MTH3051, MTH3060 and MTH3310. MTH3011 Partial differential equations MTH3020 Complex analysis and integral transforms MTH3051 Introduction to computational mathematics MTH3060 Advanced ordinary differential equations MTH3310 Applied mathematical modelling MTH3360 Fluid dynamics ASP3012 Stars and galaxies ASP3051 Relativity and cosmology ATM3050 Dynamical meteorology Extended major requirements (72 points) No more than 24 points at level 1 may be credited to the extended major and at least 24 points must be at level 3. a) The major in Applied mathematics (48 points) b) Three additional level three units (18 points) from the following list including at least one from MTH3011, MTH3020, MTH3051, MTH3060 and MTH3310. MTH3011 Partial differential equations MTH3020 Complex analysis and integral transforms MTH3051 Introduction to computational mathematics MTH3060 Advanced ordinary differential equations MTH3310 Applied mathematical modelling MTH3360 Fluid dynamics ASP3012 Stars and galaxies ASP3051 Relativity and cosmology ATM3050 Dynamical meteorology MTH3251 Financial mathematics d) One additional level two or level three unit (6 points) from the elective list below Elective list Level 2 ASP2062 Introduction to astrophysics ATM2020 Climate dynamics of the atmosphere and oceans ATM2030 Clouds, weather and forecasting MTH2000 Mathematics research project level 2 MTH2132 The nature and beauty of mathematics MTH2140 Real analysis Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 10 of 71

MTH2222 Mathematics of uncertainty MTH2232 Mathematical statistics Level 3 ASP3012 Stars and galaxies ASP3051 Relativity and cosmology ATM3040 Physical meteorology ATM3050 Dynamical meteorology MTH3000 Mathematics research project level 3 MTH3011 Partial differential equations MTH3020 Complex analysis and integral transforms MTH3051 Introduction to computational mathematics MTH3060 Advanced ordinary differential equations MTH3110 Differential geometry MTH3121 Algebra and number theory MTH3140 Real analysis MTH3150 Algebra and number theory II MTH3160 Functional analysis MTH3230 Time series and random processes in linear systems MTH3241 Random processes in the sciences and engineering MTH3251 Financial mathematics MTH3310 Applied mathematical modelling MTH3360 Fluid dynamics Requirements for progressing to honours in applied mathematics 24 points of relevant level three units, of which normally 18 points are from the units listed above. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 11 of 71

APPLIED MICROBIOLOGY Description Applied microbiology is the study of microorganisms such as bacteria, fungi, parasites and viruses. Students will learn about their structure and way of life, how they interact with people and other living organisms in both harmful and beneficial ways and how they can be harnessed and utilized for industries such as the food and pharmaceutical industry. The field is at the core of game-changing new developments occurring in modern molecular biology. It is also vital to our ability to arrest emerging health issues e.g. influenza outbreaks, SARS, Ebola and the rise of antibiotic resistance in medically important bacteria. Our teaching labs have state of the art equipment and facilities for practical training. Practical classes in microbiology are designed to provide laboratory skills in safe handling of micro-organisms, experimental procedures illustrating their properties and functions, laboratory diagnosis, and genetic manipulation and expression. This hands-on approach will ensure that students are well prepared for the job market. Our lecturers are all active researchers as well as teachers, ensuring each course taught at Monash reflects the most recent advances in the various microbiology disciplines. Applied microbiology is integral to many areas of science and industry including biomedical science, biotechnology, ecology, food fermentation and food safety, and the pharmaceutical industry. Graduates with a major in microbiology find employment in medical research companies and institutes, hospitals, government departments, universities, and the food and beverage industry. Availability Applied microbiology is listed in the Bachelor of Science at Malaysia as a major or minor. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: demonstrate a broad understanding of the diversity and range of microorganisms, the interactions between humans and microorganisms, the role of microorganisms in industrial and environmental processes, and their role in the development of the techniques that underpin modern molecular biology demonstrate proficiency in a set of core microbiological and molecular biological technical methods, including both an understanding of the principles of the methods and their utilisation in laboratory settings Minor requirements (24 points) BIO1011 Biology I CHM1051 Chemistry I advanced or CHEM1052 Chemistry II advanced BTH2732 Recombinant DNA technology MIC2011 Introduction to microbiology and microbial biotechnology Major requirements (48 points) No more than 12 points may be at level one and at least 24 points must be completed at level three. a) The requirements of a minor in applied microbiology (24 points) b) Four additional units (24 points) from: BTH3711 Food and industrial microbiology BTH3722 Medical microbiology BTH3732 Environmental microbiology Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 12 of 71

BTH3752 Molecular biology and biotechnology SCI3990 Science in action research project Requirements for progressing to honours in applied microbiology 24 points of relevant level three units, of which normally 18 points are from the units listed above. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 13 of 71

ASTROPHYSICS Description Astrophysics is the science that endeavours to understand the Universe and its contents, via observations and the laws of physics. This includes the distribution of matter in the Universe, and celestial objects such as planets and stars, comets, pulsars and quasars, black holes and galaxies. Astrophysics links the largest and smallest objects in the Universe, from cosmic rays to super clusters of galaxies. The subject deals with the very biggest questions, such as the ultimate fate of the Universe and the possibility of extra-terreastrial life. We address these questions by using theory, observations made with the largest telescopes and calculations done on the world s largest supercomputers. The Monash undergraduate program is currently the most comprehensive in Australia. The Monash Centre for Astrophysics is home to world-leading experts in observational and theoretical astrophysics, whose expertise is directly relevant to the content of the undergraduate program. Our program will introduce you to all of the skills and tools required in modern astronomy and astrophysics, from large telescopes to supercomputers. At Monash you will be taught by internationally renowned astronomers who are performing ground breaking research in many fields. We have developed a new way of teaching physics and astronomy called the Physics and Astronomy Collaborative-learning Enviromenmt (PACE). The PACE Studios and our teaching laboratories were designed purposefully to promote independent learning, teach problem solving, effective communication and team work. We are forging a community of students who are active learners, able to apply their knowledge and skills in creative and imaginative ways. Modern astrophysics draws heavily on physics, mathematics, computation and numerical analysis, and the Monash astronomy and astrophysics program provides excellent training in modern science and problemsolving. Our graduates find work in areas that require analytical people with great problem-solving skills, including government, finance, business, private industry, science journalism, teaching, or at research laboratories, universities and planetariums. Our graduate program is aimed at equipping those who intend a professional career in astronomy or astrophysics. The astrophysics major requires a firm mathematical foundation. Students planning to complete a physics major must also complete a minor in mathematics. Availability Astrophysics is listed in the Bachelor of Science, the Bachelor of Science Advanced Global challenges (Honours) and the Bachelor of Science Advanced Research (Honours) at Clayton as a major or minor. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: demonstrate an understanding of broad areas of astronomy and astrophysics and how knowledge in these areas is constructed from observation, mathematical analysis and numerical modelling demonstrate the effective use of specialised astronomical equipment, including telescopes and their instrumentation, and modelling tools undertake further learning in astronomy and related disciplines, for employment requiring analytical, quantitative and experimental skills, and for undertaking secondary teacher qualifications. Supporting studies A minor in mathematics that includes MTH2032 Differential equations with modelling is required to support the major and extended major in astrophysics. Minor requirements (24 points) a) Two units (12 points) chosen from: Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 14 of 71

MTH1030 Techniques for modelling PHS1011 Physics PHS1080 Foundation physics b) The following two level two units (12 points) ASP2011 Astronomy ASP2062 Introduction to astrophysics Major requirements (48 points) No more than 12 points may be at level one and at least 18 points must be completed at level three. a) One level one science sequence (12 points) from: PHS1080 Foundation physics and PHS1022 Physics PHS1011 Physics and PHS1022 Physics b) The following four units (24 points) ASP2011 Astronomy ASP2062 Introduction to astrophysics ASP3012 Stars and galaxies ASP3051 Relativity and cosmology c) Two level three units (12 points) from: ASP3222 Physics for astrophysics* ASP3231 Observational astronomy MTH3360 Fluid dynamics *ASP3222 has additional prerequisites Requirements for progressing to honours 24 points of relevant level three units, which should include MTH3360, astrophysics units and some experience with numerical computation. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 15 of 71

ATMOSPHERIC SCIENCE Description Atmospheric science explores the structure and evolution of the atmosphere, and includes adressing how we forecast our weather as well as how we understand the climate. Weather and climate are both critical to understading the natural environment and how it is changing under anthropogenic influences. Atmospheric Science is an interdisciplinary science that draws on the strengths of environmental science, applied mathematics and physical geography and applications of concepts in physics and chemistry. The major offers a balance of field work, data analysis, theoretical research and advanced modelling that is taught by experts in the field and which is supported by state of the art facilities. People who study atmospheric science can expect to work in closely-aligned sectors such as the Bureau of Meteorology or consultancies that deal with weather and climate, or in disparate industries such as risk-management for banks and insurance companies. Availability Atmospheric science is listed in the Bachelor of Science, the Bachelor of Science Advanced Global challenges (Honours) and the Bachelor of Science Advanced Research (Honours) at Clayton as a major or minor. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: understand the physical theory of the Earth's atmosphere, its relation with climate and weather forecasting, and how it can be constructed from basic principles using mathematical analysis and numerical modelling demonstrate high-level knowledge and skills of the important techniques, terminology and processes of at least one area of atmospheric science such as clouds, weather forecasting, large-scale weather, climate variability, Australian atmospheric environment and the earth boundary layer understand the importance of atmospheric sciences to a range of environmental issues, including climate change Supporting studies A minor in mathematics that includes MTH2032 Differential equations with modelling is required to support the major and extended major in atmospheric science. Minor requirements (24 points) No more than 12 points may be at level one. a) two level one units (12 points): MTH1030 Techniques for modelling and one unit from: MTH2010 Multivariable calculus, or PHS1011 Physics, or PHS1080 Foundation physics, or PHS1022 Physics b) Two units (12 points) from: ATM2020 Climate dynamics of the atmosphere and oceans ATM2030 Clouds, weather and forecasting ATS2776 Climate, weather and the land surface ATS2779 Climate change and viability Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 16 of 71

Major requirements (48 points) No more than 12 points may be at level one and at least 18 points must be at level three. a) The requirements of the minor in atmospheric science b) Two units (12 points) from: ATM3040 Physical meteorology ATM3050 Dynamical meteorology ATS3558 Global climate change and its impacts ATS3887 Designing urban futures: urban climate, water and adaptation c) Two level two or level three units (12 points), with at least 6 points at level three, from the remaining units listed under the major or minor or the following list: ATS2776 Climatology: Land, ecosystems and the atmosphere ATS3558 Global change and the earth system MTH3051 Introduction to computation mathematics MTH3230 Time series and random processes in linear systems MTH3360 Fluid dynamics Requirements for progressing to honours in atmospheric science 24 points of relevant level three units, of which normally 18 points are atmospheric science units. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 17 of 71

BIOCHEMISTRY Description Biochemistry explores the chemical components, reactions, structures and processes that form the foundation for all living matter in order to understand the molecular events that underlie biological processes. These are important in human, animal and plant biology, medicine, agriculture, forensic science and biotechnology. Biochemistry draws on biology, chemistry and physics, providing a key interface between these fields and opens up our understanding of the causes of disease and provides the basis of the development of effective treatments. It interfaces with chemistry, cell biology, biotechnology, bioinformatics and mathematical modelling and has many applications in leading edge research and technology. The Department of Biochemistry and Molecular Biology has been ranked as the premier department in its discipline since the inception of Australian Research Council benchmarking of Australian departments in 1998. Our researchers have made strong contributions to the fields of structural biology, molecular cell biology, infection and immunity, cancer biology and metabolic diseases, among others. Student experiences, while undertaking Biochemistry at Monash, reflect that they are taught by leading researchers and educators, and receive up-to-date expertise enabling them to have the knowledge and skills for further study, research training and productive employment. Biochemists find employment in many areas including national and international university or research institute laboratories, hospitals and diagnostic laboratories and the pharmaceutical, biotechnology and food manufacturing industries, as well as media communications and publishing, and government departments and agencies. Availability Biochemistry is listed in the Bachelor of Science, the Bachelor of Science Advanced Global challenges (Honours) and the Bachelor of Science Advanced Research (Honours) at Clayton as a major, extended major or minor. The Biochemistry major and extended major are not available in the double degree course Bachelor of Science and Bachelor of Biomedical Science. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: demonstrate broad knowledge of the biomolecules, machinery and information flow within living cells, and an appreciation of how these underpin all biological processes, in both normal and diseased states demonstrate knowledge in specialist areas of biochemistry including: metabolic regulation, proteins and structural biology, bioinformatics, advanced molecular biology, signal transduction, cell organisation and the roles of organelles, and demonstrate the role of biochemistry in health and diseases such as cancer demonstrate proficient technical skills in core biochemical laboratory techniques, and explain and interpret the principles and applications of these methods within the molecular biosciences and associated professional and social responsibilities Minor requirements (24 points) a) One level one science sequence (12 points) from: BIO1011 Biology I and BIO1022 Biology II CHM1011 Chemistry I and CHM1022 Chemistry II CHM1051 Chemistry I advanced and CHM1052 Chemistry II advanced b) The following two units (12 points) Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 18 of 71

BCH2011 Structure and function of cellular biomolecules BCH2022 Metabolic basis of human diseases Major requirements (48 points) No more than 12 points may be at level one and at least 18 points must be completed at level three. a) One level one science sequence (12 points) from: BIO1011 Biology I and BIO1022 Biology II CHM1011 Chemistry I and CHM1022 Chemistry II CHM1051 Chemistry I advanced and CHM1052 Chemistry II advanced b) One level two science sequence (12 points) from: BCH2011 Structure and function of cellular biomolecules and BCH2022 Metabolic basis of human diseases MOL2011 Molecular biology: Genes and their expression* and MOL2022 Molecular biology: Gene technology and its application * Requires pre-requisite level one sequence of BIO1011 and BIO1022 c) Four level three units (24 points) from: BCH3021 Cell organisation: Organelle structure and function in health and disease BCH3031 Advanced molecular biology: Modern concepts and applications BCH3042 Cell signal transduction: Role in cancer and human disease BCH3052 Protein biology: From sequence to structure and disease BCH3990 Action in biochemistry research project Extended major requirements (72 points) No more than 24 points at level 1 may be credited to the extended major and at least 24 points must be at level 3. a) The requirements of the major in biochemistry (48 points) b) The remaining level two science sequence (12 points) from (b) in the Major c) Two elective units (12 points) selected from the remaining level three units in (c) above or from the following: DEV2011 Early human development from cells to tissues DEV2022 Principles and organ and body design GEN3040 Genomics and its applications GEN3051 Medical and forensic genetics IMM3031 Molecular and cellular immunology MIC3011 Molecular microbiology MIC3022 Molecular virology and viral pathogenesis MIC3032 Pathogenesis of bacterial infectious diseases Requirements for honours in biochemistry 24 points of relevant level three units, of which normally 18 points are biochemistry or developmental biology, human pathology, immunology, microbiology, pharmacology and physiology units. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 19 of 71

BIOTECHNOLOGY Description This is an interdisciplinary laboratory-based program that covers broad areas of biotechnology including applications in medical sciences, agriculture, environment, and industry. The Biotechnology major seeks to produce multi-skilled graduates rather than specialists in one particular aspect of biotechnology. It emphasizes a core understanding of the basic sciences and frames this knowledge around fundamental laboratory skills such as modern instrumentation, experimental design and data analysis, biochemical and microbiological techniques, and recombinant DNA technology. The Biotechnology major offered at Monash University Malaysia trains students in areas of genetics, genomics, plant biotechnology, environmental biotechnology, as well as ethics and regulation, relevant to the rapidly emerging biotechnology industries worldwide. The teaching and learning approaches used include lectures, tutorials, practical classes and field trips. Students are exposed to a variety of scientific communication skills including scientific reports and oral presentations. The practical classes are particularly effective as they use pilot scale equipment to provide the students with hands-on laboratory skills in biotechnology. The rapid development of the biotechnology industry worldwide has created exciting and rewarding career opportunities in health care, drug discovery, agriculture, environmental sciences, manufacturing and services, as well as in research and development. Availability Biotechnology is listed in the Bachelor of Science at Malaysia as a major or extended major. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: Demonstrate knowledge and understanding of the molecular and chemical processes that underlie the wide variety of functions in all forms of life, including micro-organisms, plants and animals Apply critical thinking, quantitative and qualitative techniques to solve biotechnology problems and demonstrate inquiry and critical thinking, and ethical, social and international understanding in the context of biotechnology Demonstrate understanding of the fundamental concepts of biotechnology business, intellectual property rights, and the regulatory framework governing the biotechnology industry Major requirements (48 points) a) The following units (18 points): BTH1802 Fundamentals of biotechnology CHM1052 Chemistry II advanced SCI3716 Laboratory and workplace management b) Two units (12 points) from: BTH2732 Recombinant DNA technology BTH2741 Biochemistry GEN2041 Foundations of genetics c) Three units (18 points) from: BTH3711 Food and industrial microbiology BTH3752 Molecular biology and biotechnology BTH3820 Plant biotechnology GEN3040 Genomics and its applications Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 20 of 71

GEN3051 Medical and forensic genetics SCI3990 Science in action research project Extended major requirements (48 points) No more than 24 points at level 1 may be credited to the extended major and at least 24 points must be at level 3. a) The requirements of the major in biotechnology (48 points) b) an additional four units (24 points) of which at least two must be from the level three units in list (c) above and the remainder from list (c) or the following: BTH2752 Cellular metabolism CHM2922 Spectroscopy and analytical chemistry MIC2011 Introduction to microbiology and microbial biotechnology Requirements for progressing to honours in Biotechnology 24 points of relevant level three units, of which normally 18 points are from the level three units listed above. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 21 of 71

CHEMISTRY Description Chemistry is the science of matter and energy the study of the makeup and structure of substances, how their atoms and molecules react and interact, and how that behaviour can be harnessed to transform materials, medicine, and technology. Both observation and measurement are essential in chemistry. Our chemistry units cover aspects of synthetic, analytical and physical chemistry with emphasis on the environment, materials, medicine, biology, and sustainability. All our units involve laboratory work in addition to lectures and tutorials, and are undertaken in our new and state of the art Green Chemical Futures building. The School is amongst the top 50 Chemistry Departments in the world. We place a strong emphasis on research, innovative teaching and science education, developing students in modern chemical practice, problem solving, as well as oral and written communication skills. Chemistry is considered a core science and the foundation for more specialised disciplines. This means graduates have a wide range of career opportunities in industry, food and forensic sciences, academia, environmental sciences, teaching and medical research. Your analytical and logical-thinking skills will also be of interest to the legal, financial, and commercial worlds. Availability Chemistry is listed in the Bachelor of Science, the Bachelor of Science Advanced Global challenges (Honours) and the Bachelor of Science Advanced Research (Honours) at Clayton as a major, extended major or minor, and in the Bachelor of Science at Malaysia as a minor. Outcomes In addition to achieving the outcomes of their course broadly, students at Clayton successfully completing this major will be able to: demonstrate a broad understanding of the major areas of chemistry including: synthetic chemistry, materials chemistry, medicinal and biological chemistry, physical chemistry, analytical chemistry, sustainable chemistry, and environmental chemistry apply the scientific method to generate new knowledge in the chemical sciences, and integrate chemistry with other science disciplines to recognise and solve scientific and technical problems communicate effectively the importance of chemistry and its application in everyday life; including generation of new chemicals and materials, pharmaceuticals and healthcare, new energy sources, and environmental protection and sustainability. Minor requirements (24 points) a) One level one science sequence (12 points) from: CHM1011 Chemistry I and CHM1022 Chemistry II CHM1051 Chemistry I advanced and CHM1052 Chemistry II advanced *Students who have demonstrated a strong aptitude in chemistry during secondary studies (eg. VCE Chemistry Study Score greater than 36) may enrol in CHM1051 and CHM1052 Advanced units. Students with a high score in CHM1011 may be permitted to progress to the advanced stream in semester two. b) Two level two or level three units (12 points) from those listed under the major. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 22 of 71

Major in chemistry requirements (48 points) a) The requirements of the minor in chemistry (24 points): b) Four units (24 points) from the following, with at least 18 points at level three: CHM2911 Synthetic chemistry I* CHM2922 Spectroscopy and analytical chemistry* CHM2942 Biological chemistry CHM2951 Environmental chemistry - water CHM2962 Food chemistry CHM2990 Introductory chemical research project CHM3180 Materials chemistry CHM3911 Advanced physical chemistry CHM3922 Advanced organic chemistry CHM3930 Medicinal chemistry CHM3941 Advanced inorganic chemistry CHM3952 Advanced analytical chemistry CHM3960 Environmental chemistry CHM3972 Sustainable chemistry CHM3990 Chemistry project *CHM2911 and CHM2922 are pre-requisite units for most level three units. Extended major requirements (72 points) No more than 24 points at level 1 may be credited to the extended major and at least 24 points must be at level 3. a) The requirements of the major in chemistry (48 points) b) an additional four units (24 points) from the remaining level two and level three units listed above under the major, with a total of at least six units at level three. Requirements for progressing to honours in chemistry CHM2911, CHM2922 and 24 points of CHM level three units including one of CHM3911 and CHM3952, and one of CHM3941 and CHM3922. Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 23 of 71

COMPUTATIONAL SCIENCE Description Computational science is the construction and application of mathematical models, simulation, numerical methods and data analysis techniques to solve scientific problems using computers. It is highly relevant to all scientific study as computational techniques, algorithms and data visualisation are now deeply ingrained in aspects of all sciences. This scope ranges from understanding the interactions of sub-atomic particles through to our understanding of the processes that shape stars and galaxies, from the molecular basis of life, through to the processes that govern outbreaks of epidemics, the sustainability of ecosystems and the dynamics of the biosphere. No area of cutting edge science today is conducted without the assistance of computational science techniques. Computational science at Monash leads students from the theoretical and practical fundamentals of computer science and algorithmic problem solving, to advanced programming techniques, 3D computer graphics and intelligent systems. Parallel computation is studied also as this is required for massive data analysis and simulation execution to tackle the earth s most pressing current end emerging problems. Monash is the only Group of Eight university with a dedicated IT faculty. In Computer Science and Information Systems, Monash is ranked amongst the top 60 universities worldwide by the 2011 QS World University Rankings. Our teaching labs have state of the art equipment and facilities for practical, hands-on training. Our lecturers are active researchers and teachers, ensuring each course taught at Monash reflects the most recent advances in Computational science. Computational science is now fundamental to all science disciplines. Training in this field will enhance any student s job prospects and career potential in biological, physical, mathematical and biomedical science, and in the sciences related to the earth, atmosphere and environment. Computational science skills also have the potential to facilitate students moving into new discipline areas such as the Humanities and Creative Arts where computational techniques are becoming increasingly relevant in fields such as Social Science, Archaeology, Architecture, Music, Visual Art. Availability Computational science is listed in the Bachelor of Science, the Bachelor of Science Advanced Global challenges (Honours) and the Bachelor of Science Advanced Research (Honours) at Clayton as a major, extended major or minor and in the Bachelor of Science at Malaysia as a minor. The Computational science major and extended major are not available in the double degree course Bachelor of Science and Bachelor of Computer Science. Outcomes In addition to achieving the outcomes of their course broadly, students successfully completing this major will be able to: demonstrate understanding of the theoretical basis of computer science and a knowledge of computational problem solving strategies demonstrate the ability to systematically analyse scientific problems, then develop, design and analyse algorithms to solve them implement substantial pieces of efficient software to solve computational problems. Supporting Studies A minor in mathematics that includes MTH2032 Differential equations with modelling is required to support the major and extended major in Computational science. Minor requirements (24 points) a) The following three units (18 points): Bachelor of Science Detailed Course Requirements January 2015 v1.0 Page 24 of 71