Major: Radiography Degree: Bachelor of Science in Radiography Prerequisites MAC 1105 SPC 2608 BSC 2085C BSC 2086C STA 2014 CHM 2045C MCB 2010C PSY 2012 PHY 2053 PHY 2053L (32 Semester Hours) College Algebra Credit hours (3 Credits) Fundamentals of Speech (3 Credits) Anatomy & Physiology I with lab (4 Credits) Anatomy & Physiology II with lab (4 Credits) Statistics (3 Credits) General Chemistry I with lab (4 Credits) Microbiology with lab (4 Credits) Introduction to Psychology (3 Credits) Algebra-based Physics (3 Credits) Algebra-based Physics lab (1 Credit) Fall Semester (Junior year) (14 Semester Hours) RTE 3XXX Patient Care Techniques (2 Credits) RTE 3XXXC Radiographic Procedures I (4 Credits) RTE 3XXX Radiologic Technology Science (2 Credits) RTE 3XXXL Clinical Practicum I (5 Credits) RTE 3XXX Foundations of Radiography (1 Credits) Spring Semester (Junior year) (13 Semester Hours) RTE 3XXXC RTE 3XXX RTE 3XXXL Radiographic Procedures II (7 Credits) Radiographic Exposure (2 Credits) Clinical Practicum II (4 Credits) Summer Semester (Junior year) (8 Semester Hours) RTE 4XXXL Clinical Practicum III (8 Credits) Fall Semester (Senior year) (13 Semester Hours) L Radiographic Factor Analysis (2 Credits) Applied Radiographic Topics (1 Credit) Computed Tomography (1 Credit) Radiation Protection & Advanced Imaging (3 Credits) Clinical Practicum IV (6 Credits)
Spring Semester (Senior Year) (12 Semester Hours) HSA4553 L C Health Law & Ethics (3 Credits) Clinical Practicum V (6 Credits) Radiographic Procedures III (3 Credits) Total Credits 120 From: Garner, James Sent: Tuesday, November 05, 2013 5:16 PM To: Chally, Pamela Subject: RE: Re-work of course Hi Pam, This looks fine to me. I have only one change, replace anatomic with atomic in the course description. Thanks for giving physics the opportunity for input and best of luck on a successful Radiography program with the Mayo Clinic-Jax- UNF collaborative program! james James L. Garner, Ph.D.
Professor and Chair University of North Florida Department of Physics 1 UNF Dr. Science & Engineering Building 50 Room 2600 Jacksonville, FL 32224 (904) 620-1947 office (904) 620-1989 FAX (904) 400-3199 cell jgarner@unf.edu From: Chally, Pamela Sent: Tuesday, November 05, 2013 3:49 PM To: Garner, James Subject: FW: Re-work of course Hi James, Below is what we would like to move forward with regarding the reworked course. I believe it represents what we agreed to. Please let me know if I have missed anything or if you have suggestions. Assuming this is OK, could you please write an email to that effect that can attach to the APC rewrite? Is it possible to have this note by Thursday when the committee meets? I hope I am not pushing too much. Thank you! Pam Pamela S. Chally, PhD, RN
Dean/Professor Brooks College of Health 1 UNF Drive Jacksonville, FL 32224 phone: 904.620.2810 fax: 904.620.1030 email: pchally@unf.edu From: Kenney, Heather Sent: Monday, November 04, 2013 4:22 PM To: Chally, Pamela Subject: FW: Re-work of course description Begin forwarded message: From: "Olejniczak, Stanley R." <Olejniczak.Stanley@mayo.edu> Date: October 28, 2013 8:22:42 AM EDT To: "Chally, Pamela" <pchally@unf.edu> Subject: Re-work of course description COURSE TITLE: Radiologic Technology Science COURSE NUMBER: CREDIT: INSTRUCTOR (S): 2 credits. Fall. Every Year Stan Olejniczak, MS., R.T. (R) PREREQUISITES: PHY 2053; high school physics with a minimum grade of B or PHY 1020; Either MAC 1105 and MAC 1114 or just MAC 1147
COURSE DESCRIPTION: This course provides the scientific concepts of velocity, acceleration, force, weight, momentum, work, power, heat, magnetism, energy and anatomic structure as it relates to radiologic technology. The course provides an explanation as to how electricity, magnetism, transformers, and rectification play a part in the components of x-ray circuitry. The x-ray tube structure and function is covered as well as its relationship to the x-ray circuit. The production of x-rays are explained and discussed. COURSE OBJECTIVES: - Review basic mathematics - Describe fundamental atomic structure as it relates to radiologic technology - Explain the processes of ionization and excitation as it relates to radiologic technology - Describe the electromagnetic spectrum as it pertains to gamma rays and x-rays - Describe the x-ray wavelength and frequency and how they are related to velocity - Explain the relationship of energy, wavelength and frequency as it relates to x-radiation - Explain the wave-particle duality phenomena and relate it to x-radiation - Identify the properties of x-rays - Describe the process of ionization and relate it to the interaction of matter in humans - Describe charged and uncharged forms of particulate radiation - Be able to list ionizing radiations as particulate or electromagnetic - Define the alpha particle and beta particle - Describe the production of bremsstrahlung and characteristic radiations as produced in the x-ray tube - Describe the conditions necessary to produce x-radiation as it relates to radiologic technology - Interpret the emission spectra for a tungsten target x-ray tube - Describe the changes to the emission spectra when kvp varies; when ma varies - Discuss relationships of wavelength and frequency to x- ray tube beam characteristics
- Define potential difference, current and resistance as it relates it to x-ray circuitry - Identify the general components and functions of the modern x-ray tube - Compare three phase, high frequency, and single phase x-ray generators in terms of x-radiation produced and efficiency - Discuss permanent installation of radiographic equipment in terms of purpose, components, types, and applications - Discuss mobile x-ray units in terms of purpose, components, types, and applications - Identify the components of diagnostic x-ray tubes - Explain the protocols used to extend x-ray tube life