Nuclear Engineering: Radiation Sciences

The radiation sciences option of the nuclear engineering major provides a pathway for careers in medical applications of radiation. Understanding how radiation interacts with biological material is a natural extension of the nuclear engineering fundamentals in modern physics and mathematics. Many students continue to graduate school to get advanced degrees in medical physics, either at UW–Madison or elsewhere.

Radiation science students will use their engineering analysis skills on challenges that range from working with patients to developing new medical devices and equipment. Patients experience radiation to diagnose diseases as well as to treat them. In both cases, it may rely on radioactive tracers injected into their bodies or on radiation exposure from outside. Deciding how to administer the radiation to maximize the benefit and minimize the harm requires skills at the intersection between medicine and nuclear engineering. Nuclear engineers in the radiation sciences option also design, analyze, and build devices that will generate novel radioactive tracers, deliver radiation externally in ever more precise ways, and detect the radiation levels to ensure the accuracy of the treatments.

Following the same deep curriculum in physics and math in the early years, students in the radiation sciences option will complete their degree with graduate courses from the internationally recognized Medical Physics program. After learning the consequences of radiation interaction with both healthy and diseased tissue, students can take courses in imaging and radiation detection, the production of radiation with radioisotopes or engineered devices, and dig deeper into the use of radiation in medicine.

Talk to your academic advisor about declaring this option.

Requirements

The Radiation Sciences option is intended for students interested in medical and non-power applications. Students must have and are expected to maintain a 3.0 cumulative GPA.

The following curriculum applies to students admitted to the nuclear engineering degree program with radiation sciences option.

Summary of Requirements

Course List
Code	Title	Credits
Mathematics and Statistics		22
Science		16
Engineering Science		27
Radiation Sciences Core Requirement		25
Radiation Sciences Electives		11
Introduction to Engineering		3
Communication Skills		8
Liberal Studies Electives		16
Free Elective		1
Total Credits		129

Mathematics and Statistics

Course List
Code	Title	Credits
MATH 221	Calculus and Analytic Geometry 1	5
MATH 222	Calculus and Analytic Geometry 2	4
MATH 234	Calculus--Functions of Several Variables	4
MATH 320	Linear Algebra and Differential Equations	3
MATH 321	Applied Mathematical Analysis 1: Vector and Complex Calculus	3
STAT 324	Introduction to Statistics for Science and Engineering	3
Total Credits		22

Science

Course List
Code	Title	Credits
Select one of the following:		5-9
CHEM 109	Advanced General Chemistry
CHEM 103 & CHEM 104	General Chemistry I and General Chemistry II
PHYSICS 202	General Physics	5
or PHYSICS 208	General Physics
PHYSICS 241	Introduction to Modern Physics	3
or PHYSICS 205	Modern Physics for Engineers
PHYSICS 322	Electromagnetic Fields	3
Total Credits		16-20

Engineering Science

Course List
Code	Title	Credits
E C E 376	Electrical and Electronic Circuits	3
or PHYSICS 321	Electric Circuits and Electronics
E M A 201	Statics	3
E M A 202	Dynamics	3
E M A 303	Mechanics of Materials	3
E P 271	Engineering Problem Solving I	3-4
or COMP SCI 220	Data Science Programming I
M E 231	Geometric Modeling for Design and Manufacturing	3
M E 361	Thermodynamics	3
M S & E 350	Introduction to Materials Science	3
E M A/E P 471	Intermediate Problem Solving for Engineers (recommended)	3
or COMP SCI 412	Introduction to Numerical Methods
or E P 476	Introduction to Scientific Computing for Engineering Physics
Total Credits		27-28

Radiation Sciences Core Requirement

Course List
Code	Title	Credits
N E 305	Fundamentals of Nuclear Engineering	3
N E 405	Nuclear Reactor Theory	3
N E 408	Ionizing Radiation	3
N E 412	Nuclear Reactor Design	5
N E 424	Nuclear Materials Laboratory	1
N E 427	Nuclear Instrumentation Laboratory	2
N E 428	Nuclear Reactor Laboratory	2
N E 571	Economic and Environmental Aspects of Nuclear Energy	3
MED PHYS/B M E/H ONCOL/PHYSICS 501	Radiation Physics and Dosimetry ¹	3
Total Credits		25

¹: Students that take MED PHYS/B M E/H ONCOL/PHYSICS 501 must have completed PHYSICS 322, N E 305, N E 405, and N E 408.

Radiation Sciences Electives

Course List
Code	Title	Credits
Medical Physics Electives
Select credits from Medical Physics Electives Course List below		9
Technical Electives
Not to be confused with Medical Physics Electives, choose 2 credits from the following:		2
N E 1	Cooperative Education Program (no more than 3 credits)
N E 699	Advanced Independent Study
Courses numbered 300+ in the CoE except for E P D/INTEREGR
Courses numbered 300+ in MATH, PHYSICS, COMP SCI, STAT (except STAT 301), ASTRON, MED PHYS, and CHEM departments ¹
Students may also propose any class that they feel will benefit their education path with pre-requisite of two physics or calculus classes. For these courses the advisor will review the request and if approved, recommend a DARS substitution.
Total Credits		11

¹: PHYSICS 623 Electronic Aids to Measurement is recommended for students in the Radiation Sciences focus area.

Medical Physics Electives Course List¹

Course List
Code	Title	Credits
MED PHYS/N E 506	Monte Carlo Radiation Transport	3
MED PHYS/B M E 566	Physics of Radiotherapy	3
MED PHYS/N E 569	Health Physics and Biological Effects ²	3-4
MED PHYS/B M E 573	Mathematical Methods in Medical Physics	3
MED PHYS/B M E 578	Non-Ionizing Diagnostic Imaging	4
MED PHYS/B M E 580	The Physics of Medical Imaging with Ionizing Radiation	4
MED PHYS 671	Selected Topics in Medical Physics ²	1-4
MED PHYS 674	Data Science in Medical Physics	3
MED PHYS/PHYSICS 688	Radiation Production and Detection	4
MED PHYS 699	Independent Reading or Research	1-3
MED PHYS 701	Ethics and the responsible conduct of research and practice of Medical Physics	1

Students are encouraged to access the online N E future course offering grid to plan their future course schedules and to confirm the offering of a course in the table.

¹: Courses meeting the Medical Physics Electives requirement are selected MED PHYS courses numbered 500 and above and selected PHYSICS courses numbered 400 or above. No more than 3 credits of N E 699 Advanced Independent Study may be used to meet this requirement.
²: N E/MED PHYS 569 Health Physics and Biological Effects and MED PHYS 671 Selected Topics in Medical Physics are especially recommended for students in this focus area.

Introduction to Engineering

Course List
Code	Title	Credits
N E 231	Introduction to Nuclear Engineering	3
Total Credits		3

Communication Skills

Course List
Code	Title	Credits
Engr Comm 1
INTEREGR 156	Introduction to Writing, Speaking, and Ethics for Engineers	3
or ENGL 100	Introduction to College Composition
or LSC 100	Science and Storytelling
or COM ARTS 100	Introduction to Speech Composition
or ESL 118	Academic Writing II
Technical Presentations
INTEREGR 275	Technical Presentations	2
Engr Comm 2
INTEREGR 397	Engineering Communication	3
Total Credits		8

Liberal Studies Electives

Course List
Code	Title	Credits
Liberal Studies Electives according to CoE requirements		16

For information on credit load, adding or dropping courses, course substitutions, pass/fail, auditing courses, dean's honor list, repeating courses, probation, and graduation, see the College of Engineering Official Regulations.

Honors in Undergraduate Research Program

Qualified undergraduates may earn an Honor in Research designation on their transcript and diploma by completing 8 credits of undergraduate honors research, including a senior thesis. Further information is available in the department office.

Four-Year Plan

Sample Four-Year Plan

First Year
Fall	Credits	Spring	Credits
CHEM 109¹	5	E M A 201	3
MATH 221	5	MATH 222	4
Engr Comm 1	3	M E 231	3
Liberal Studies Elective	3	M S & E 350	3
		N E 231	3
	16		16
Second Year
Fall	Credits	Spring	Credits
MATH 234	4	MATH 320	3
PHYSICS 202	5	PHYSICS 241 or 205	3
E M A 202³	3	M E 361	3
STAT 324⁴	3	E M A 303³	3
INTEREGR 275	2	N E 424	1
		Liberal Studies Elective	3
	17		16
Third Year
Fall	Credits	Spring	Credits
N E 305	3	N E 405	3
MATH 321	3	N E 408	3
E P 271	3	PHYSICS 322	3
Technical Elective	2	Computing Elective	3
Liberal Studies Elective	4	E C E 376²	3
		Free Elective	1
	15		16
Fourth Year
Fall	Credits	Spring	Credits
N E 427	2	N E 412	5
MED PHYS/B M E/H ONCOL/PHYSICS 501	3	N E 571	3
Medical Physics Elective	3	N E 428	2
Medical Physics Elective	3	Medical Physics Elective	3
Liberal Studies Elective	3	Liberal Studies Elective	3
INTEREGR 397	3
	17		16
Total Credits 129

¹: It is recommended that students take CHEM 109 Advanced General Chemistry for 5 credits. However, depending on their high school chemistry experience, students may substitute this with CHEM 103 General Chemistry I and CHEM 104 General Chemistry II for a total of 9 credits.
²: PHYSICS 321 Electric Circuits and Electronics is an acceptable substitute for E C E 376 Electrical and Electronic Circuits
³: After completing E M A 201 Statics, students may complete E M A 202 Dynamics and E M A 303 Mechanics of Materials in either order or concurrently.
⁴: STAT 311 Introduction to Theory and Methods of Mathematical Statistics I or STAT 424 Statistical Experimental Design are acceptable substitutes.