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Idaho State University Undergraduate Catalog 2010-2011

Department of Physics

Interim Chair and Professor: Shropshire
Professors: Brey, Dale, Gesell, Wells
Associate Professors: Cole, Keeter, Tatar
Research Associate Professors: Chouffani, Dimitrov, Forest, Hunt
Assistant Professor: Harris
Research Assistant Professors: Chandler, Mitchell
Senior Lecturer: Hackworth
Visiting Assistant Lecturer: Bernabee
Research Instructors: Claver, Dunker
Adjunct Faculty: Clarke, DeVeaux, Espy, Harker, James, Jones, Merrill, Nigg, Roney, Schrader, White
Affiliate Faculty: Blackburn, Cummings, DeVeaux, Espy, Farfan, Franckowiak, Hall, Harker, James, Jones, Langley, Merrill, Millward, Nigg, Neischmnidt, O’Rear, Otis, Rich, Ritter, Roney, White
Emeriti:  Beezold, Harmon, Parker, Price, Vegors
See Faculty Information   
See Degrees    
See Physics Minor   
See Health Physics   
See Physics Courses   

Degree Options in Physics

Students who wish to major in physics will take courses which will prepare them for industrial or governmental positions or for graduate study in physics or allied fields.

The department offers three undergraduate degree programs as well as a minor in physics. The Associate of Science, Bachelor of Arts, and the minor are designed for students who desire a flexible program so they can develop interdisciplinary competence. The Bachelor of Science degree places greater emphasis on physics and is designed to prepare students for careers in physics or a closely allied profession. These programs consist of a set of required core courses plus a selection of courses in a particular field. The core courses include the basic physics and mathematics courses which serve as a foundation for more advanced study. A student planning to do graduate work in physics should elect to complete the B.S. physics degree.

The common objectives for students of our undergraduate programs in physics include developing: (1) broad, fundamental technical skills and knowledge, (2) strong communication skills, and (3) the capability to think critically and work independently. Each of these objectives has a "level" that is appropriate for the degree.

For the A.S. degree in physics, the technical learning objectives are to achieve a hands-on core competence that is appropriate for a technician.  This includes the general education goals of a B.S. degree, plus knowledge of general physics, calculus, and general chemistry.  The communication objectives at this level are writing and speaking skills that meet the needs of a within-a-work-group setting.  Our expectations are that these students will obtain critical thinking skills and an ability to work independently at the technician level. 

For the B.A. degree in physics, the technical objectives are mastery of calculus, ordinary differential equations, linear algebra, general physics, modern physics, and student-selected areas of classical mechanics, quantum mechanics, electromagnetism and methods of nuclear measurements.  For the B.S. degree in physics, the technical objectives are the learning goals of the B.A. degree, plus additional hands-on research laboratory experience and further knowledge in solid-state physics, statistical physics, nuclear physics, optics and the conduct of research.  The communication objectives at the B.A. and B.S. levels are writing and speaking skills that are sufficient to represent themselves and their organizations at regional or national scientific meetings.  Our expectations are that these students will obtain critical thinking skills and an ability to work independently at a level that will require minimal or modest supervision of either management or a more senior scientist. 

Associate of Science in Physics
Bachelor of Arts in Physics
Bachelor of Science in Physics
Minor in Physics


Health Physics at Idaho State University

Associate of Science in Physics (Health Physics Emphasis)
Bachelor of Sciences in Physics (Health Physics Emphasis)

In addition to the more traditional physics program  options, the Department of Physics also offers the A.S. and B.S. options in Health Physics. Health Physics, an applied science, is concerned with the protection of humans and their environment from the possible harmful effects of radiation while providing for its beneficial uses. Health Physics is a multi-disciplined profession that incorporates aspects of both the physical and biological sciences. The B.S. option in Health Physics will prepare the student for work in government, university, medical or industrial settings dealing with such areas as operational radiation safety, regulatory issues and environmental quality. Successful B.S. students receive a Bachelor of Science in Physics and the student's official transcript indicates an emphasis in Health Physics. 

The objective of the Idaho State University Health Physics program is to produce Health Physicists with:

The Idaho State University Health Physics program is evaluated by periodically monitoring a series of programmatic outcomes which are used to indicate the extent to which our objectives are being accomplished and to provide information by which the program may be modified to optimize accomplishing these objectives.

Students may enter the M.S. program in Health Physics from several undergraduate majors including: health physics, physics, chemistry, biology and other science or engineering majors. Additional course work to correct deficiencies may be necessary.


Bachelor of Arts in Physics

The following courses are required in addition to the General Education Requirements for the B.A. degree: 

MATH 1170 	Calculus I 				4 cr
MATH 1175 	Calculus II 				4 cr
MATH 2275 	Calculus III 				4 cr
MATH 3360 	Differential Equations 			3 cr

At Least 24 credits of Physics, including:
PHYS 2211-2212 	Engineering Physics 			8 cr
 OR
PHYS 1111-1112 	General Physics 			6 cr

PHYS 2213-2214 	Engineering Physics Laboratory 		2 cr
 OR
PHYS 1113-1114 	General Physics Laboratory 		2 cr

PHYS 3301 	Modern Physics 				3 cr
 AND
11-13 credits of electives (depending upon the introductory 
sequence) with at least 6 credits of 4000-level courses (PHYS 4492 
cannot be counted toward the latter requirement).







Bachelor of Science in Physics

The following courses are required in addition to the General Education
Requirements for the B.S. Degree:

CHEM 1111,1111L General Chemistry I, and Lab		5 cr
CHEM 1112,1112L General Chemistry II, and Lab		4 cr
MATH 1170       Calculus I				4 cr
MATH 1175       Calculus II				4 cr
MATH 2275       Calculus III				4 cr
MATH 3360       Differential Equations 			3 cr
MATH 4421, 4422	Advanced 
		  Engineering Mathematics I and II	6 cr
	OR
MATH 4461-4462	Introduction 
		  to Mathematical Physis I and II	6 cr
MATH 4422       Advanced Engineering Mathematics II	3 cr
PHYS 2211-2212  Engineering Physics			8 cr
PHYS 2213-2214  Engineering Physics Laboratory		2 cr
PHYS 3301       Modern Physics				3 cr
PHYS 3313       Intermediate Laboratory I		2 cr
PHYS 4403-4404  Advanced Modern Physics			6 cr
PHYS 4406       Advanced Physics Laboratory II		2 cr
PHYS 4416       Radiation Detection and Measurement	3 cr 
PHYS 4421-4422  Electricity and Magnetism		6 cr 
PHYS 4483       Theoretical Mechanics			4 cr 
PHYS 4492       Colloquium in Physics			1 cr 
Plus 6 additional 4000-level PHYS credits









Bachelor of Science in Physics (Health Physics Emphasis)

  
Applied Science Track

  Bioscience Track

  

  


The following courses are required in addition to the General Education
Requirements for the B.S. degree:

BIOL 1101,1101L Biology I, and Lab			3 cr
BIOL 2202L      General Zoology Laboratory		1 cr
BIOL 3301       Anatomy and Physiology			4 cr
BIOL 3302       Anatomy and Physiology			4 cr
CHEM 1102, 1103 Introduction to 
 		  Organic and Biochemistry, and Lab	4 cr
CHEM 1111,1111L General Chemistry I, and Lab		5 cr
CHEM 1112,1112L General Chemistry II, and Lab		4 cr
CS 1181         Computer Science and Programming I	3 cr
ENGL 3307       Professional and Technical Writing	3 cr
MATH 1147       Precalculus				5 cr
PHYS 4416       Radiation Detection and Measurement	3 cr 
PHYS 4431       Radiation Physics I			3 cr
PHYS 4432       Radiation Physics II			3 cr
PHYS 4433       External Dosimetry			3 cr
PHYS 4434       Internal Dosimetry 			3 cr
PHYS 4455       Topics in Health Physics I		2 cr
PHYS 4456       Topics in Health Physics II		2 cr
PHYS 4480       Health Physics Capstone			3 cr
PHYS 4488       Advanced Radiobiology			3 cr
PHYS 4492       Colloquium 				2 cr

Bioscience Track

BIOL 2209       General Ecology				3 cr
BIOL 3315       Introduction to Biometry		3 cr
MATH 1160       Applied Calculus			3 cr
PHYS 1111       General Physics I			3 cr
PHYS 1112       General Physics II			3 cr
PHYS 1113,1114  General Physics Laboratory		2 cr

Applied Science Track

MATH 3350       Statistical Methods			3 cr
MATH 1170       Calculus I 				4 cr
MATH 1175       Calculus II				4 cr
MATH 2275       Calculus III				4 cr
PHYS 2211,2212  Engineering Physics			8 cr
PHYS 2213,2214  Engineering Physics Laboratory 		2 cr












Associate of Science in Physics

Students seeking an Associate of Science degree in Physics must
complete the following:

General Education Goals for the 
  Bachelor of Science*                            variable
  
CHEM 1111,1111L General Chemistry I, and Lab		5 cr
CHEM 1112,1112L General Chemistry II, and Lab		4 cr
MATH 1170       Calculus I 				4 cr 
MATH 1175       Calculus II 				4 cr 
MATH 2275       Calculus III 				4 cr 
PHYS 2211,2213  Engineering Physics I and Lab		5 cr 
PHYS 2212,2214  Engineering Physics II and Lab		5 cr 
Electives to bring total to 64 cr			variable 
						TOTAL: 64 cr 

* The number of credits required
for the General Education requirements varies depending on the student's
performance on proficiency or placement tests in English, foreign
languages, and mathematics.





 

Associate of Science in Physics (Health Physics
Emphasis)

The objective of the Idaho State University program that awards an
Associate of Science in Physics with Emphasis in Health Physics is to
develop an
individual to assume the role of a health physics technician (sometimes
referred to as Radiological Control Technician or RCT) with the
knowledge
in radiological and biological sciences appropriate for this career
option.
That same knowledge serves as the basis for certification by the
National
Registry of Radiation Protection Technologist (NRRPT).  Students
completing
this program will develop the fundamental skills important to life-long
learning and advancing within the discipline of Health Physics. 

Curriculum 



Summer
before 1st Year 




PHYS 2217	RCT Internship I (Optional)		3 cr


Fall 1st Year







BIOL 1101, 1101L Biology I, and Lab			4 cr
ENGL 1101	English Composition			3 cr
MATH 1147	Precalculus				5 cr
	   OR
MATH 1143	College Algebra				3 cr
	   AND
MATH 1144	Trigonometry				2 cr
PHYS 2218	Fundamentals of 
		  Radiation Protection Physics		3 cr
PSYC 1101	Introduction to General Psychology	3 cr




Spring 1st
Year 






COMM 1101	Principles of Speech			2 cr
ECON 1100	Economic Issues				3 cr
ENGL 1102	Critical Reading and Writing		3 cr
MATH 1153	Introduction to Statistics		3 cr
PHYS 2226	Radiation Protection I			3 cr
PHYS 3300	Medical Electronics			2 cr
Goal 9 or 10A						3 cr




Summer
following 1st Year 






PHYS 2219 	RCT Internship II 			3 cr



  
Fall 2nd Year 




  




CHEM 1111,1111L	General Chemistry I, and Lab 		5 cr
PHYS 1111 	General Physics I 			3 cr 
PHYS 1113 	General Physics I Laboratory 		1 cr 
PHYS 2225 	Radiation Protection Instrumentation 	3 cr 
PHYS 2227 	Radiation Protection II 		3 cr




Spring 2nd Year 




PHYS 1112, 1114	General Physics II, and Lab		4 cr
CHEM 1112, 1112L General Chemistry II, and Lab		4 cr
PHYS 2228	Health Physics Regulations		3 cr
PHIL 1101	Introduction to Philosophy		3 cr
BIOL 3307	Radiobiology				2 cr
Goal 6 or 7						3 cr




 


Minor in Physics

  
MATH 1170	Calculus I 				4 cr 
MATH 1175	Calculus II				4 cr
MATH 2275	Calculus III				4 cr
MATH 3360	Differential Equations			3 cr
PHYS 2211-2212	Engineering Physics			8 cr
PHYS 3301	Modern Physics				3 cr
PHYS 4403	Advanced Modern Physics			3 cr
IN ADDITION:	Physics electives approved by 
		  the department			4 cr



 


 Physics Courses        See Health
Physics Courses

PHYS 1100 Essentials of Physics 4 credits. A
survey of basic physics principles; motion, gravitation, electricity
and magnetism, light, atoms and nuclei. Includes lecture,
demonstrations
and elementary problem solving. COREQ: MATH 1108 or equivalent. F, S



PHYS 1101 Elements
of Physics 3 credits.
A survey of basic physics principles; motion, gravitation, electricity
and magnetism, light, atoms and nuclei. Includes lecture,
demonstrations, elementary problem solving. With PHYS
1101L, satisfies Goal 5 of the General Education Requirements.  PREREQ: Permission of the College of Technology.  COREQ: MATH 1108 or equivalent; PHYS 1101L. F,
S



PHYS 1101L
Elements of Physics Laboratory 1
credit. Laboratory-based application of PHYS 1101, to
demonstrate basic physics
principles; motion, gravitation, electricity and magnetism, light,
atoms and
nuclei.  With PHYS 1101,
Satisfies Goal 5 of the General Education Requirements. PREREQ:
Permission of the College
of Technology.  COREQ: MATH 1108 or equivalent; PHYS 1101. F, S



 PHYS 1103 Tools for Scientists I 1
credit. Personal computer, Internet and WWW, and HP graphics
calculator
applications in
the sciences. Familiarizes students with the capabilities of these
computing tools. Emphasizes problems frequently encountered in science
and engineering courses. D

PHYS 1111 General Physics I 3 credits. Introductory
physics course for students in scientific and technical fields,
particularly the biological sciences; mechanics, wave motion,
thermodynamics. PREREQ: MATH 1143 or MATH 1147 or equivalent. F 


PHYS 1112 General Physics II 3 credits. Introduction
to optics, electricity and magnetism and selected topics from atomic
and nuclear physics. PREREQ: PHYS 1111 or equivalent, and MATH 1143 or
MATH 1147 or equivalent. S 


PHYS 1113 General Physics I Laboratory 1
credit. Demonstrating principles of physics. COREQ: PHYS 1111. F 


PHYS 1114 General Physics II Laboratory
1
credit. Demonstrating principles of physics. PREREQ: PHYS 1113.
COREQ: PHYS 1112. S 


PHYS 1152 Descriptive Astronomy 3
credits.
Survey of the historical and modern observation of the sky. Physical
relationships in the solar system; planets, satellites, comets, etc.,
and theories of the creation of the universe and life in the universe.
With PHYS 1153, satisfies Goal 5 of the General Education Requirements.
F, S, Su 


PHYS 1153 Descriptive Astronomy
Laboratory
1 credit. Use of astronomical equipment, telescopes, cameras, etc.
With PHYS 1152, satisfies Goal 5 of the General Education Requirements.
F, S, Su 


PHYS 2211 Engineering Physics I 4
credits. Mechanics of particles and rigid bodies; kinetic theory
and
thermodynamics; electricity and magnetism; wave motion; optics. COREQ:
MATH 1175.  F 


PHYS 2212 Engineering Physics II 4
credits. Mechanics of particles and rigid bodies; kinetic theory
and thermodynamics; electricity and magnetism; wave motion; optics.
PREREQ: PHYS 2211. S 


PHYS 2213 Engineering Physics I
Laboratory
1 credit. Principles and methods of physical measurement. COREQ:
PHYS 2211. F 


PHYS 2214 Engineering Physics II
Laboratory 1 credit. Principles and methods of physical
measurement. COREQ: PHYS 2212. PREREQ: PHYS 2213. S


 PHYS 2215 Thermal
Physics 1 credit.  Introduction
to thermodynamics and
kinetic theory.  Designed for students
who have taken AP Physics C in high school and have not had instruction
in
thermal physics normally covered in Engineering Physics I and II.  COREQ: MATH 1175.  D


PHYS 2275 Physics of Aviation 3 credits.
Introduction to the physics of flight covering aerodynamics including
the airplane, flight controls, systems and instrumentation. Includes
aviation meteorology and navigation. Satisfies the FAA ground school
requirements for the Private Pilot certificate. D 


PHYS 3300 Medical Electronics 2 credits.
A
lecture-laboratory course covering circuit theory, qualitative theory
of active devices and their applications to instrumentation. Laboratory
work will be done with basic test instruments. Primarily for students
in
the allied health fields. COREQ: PHYS 3321. S 


PHYS 3301 Modern Physics 3 credits. A
one-semester course surveying 20th century physics including elements
of special relativity and quantum mechanics as applied to atoms. A
continuation of the Engineering Physics sequence. PREREQ: PHYS 2212.
COREQ: MATH 3360. F 


PHYS 3312 Introduction to Biophysics 4
credits. Survey course designed for pre-medical, pharmacy,
biology, and physical science students covering topics such as the
physics of sensory systems, electromagnetic radiations, and physical
measurement techniques applied to biological problems. PREREQ: CHEM
1112, CHEM 1112L, MATH 1160 or MATH 1170. D 


PHYS 3313 Intermediate Laboratory I 2
credits. Modern and historical experiments in atomic physics,
nuclear physics, and optics. COREQ: PHYS 3301 and MATH 3360. F 


PHYS 3321 Radiologic Physics 2 credits.
Basic physics of x-ray production and the interaction of x-rays with
matter.
Includes topics in medical imaging. Available to juniors in
Radiographic
Science. PREREQ: PHYS 1100. S 


PHYS 3325 Introduction to Weather and
Climate 3 credits. Introduces the principles that govern weather
and climate, including movements of air masses, genesis of storms,
creation of frontal systems. Provides insight into forecasting
techniques and the effects
of weather and climate on people and societies. PREREQ: CHEM 1112, CHEM
1112L, PHYS
1112 or permission of instructor. F, W 


PHYS 4400 Practicum in Physical Science
2
credits. Emphasizes design, set-up, equipment, operation, and
administration of physics teaching laboratories, demonstrations and
activities. Introduces pre-designed experiments plus the design and
maintenance of lab equipment. Ideal for Education majors. PREREQ:
Permission of instructor. S 


PHYS 4403 Advanced Modern Physics I 3
credits. Study of the elementary principles of quantum mechanics
and an introduction
to atomic, solid state and nuclear physics. Quantum mechanics will be
used
as much as possible. PREREQ: MATH 3360 or equivalent, and PHYS 3301. S 


PHYS 4404 Advanced Modern Physics II 3
credits each. Study of the elementary principles of quantum
mechanics and
an introduction to atomic, solid state and nuclear physics. Quantum
mechanics will be used as much as possible. PREREQ: PHYS 4403. F 


PHYS 4405 Advanced Physics Laboratory I
2
credits. Experiments in radiation detection and measurement,
nuclear spectroscopy including x-ray and gamma spectroscopies, neutron
activation and ion beam methods. Available to Geology, Engineering,
Health Physics, and Physics majors. PREREQ: Permission of instructor. D



PHYS 4406 Advanced Physics Laboratory II
2
credits. Senior projects providing a capstone to the physics major
curriculum. Written and oral presentation of the project procedures and
results
are required. F, S 


PHYS 4409 Introductory Nuclear Physics 3
credits. A course in Nuclear Physics with emphasis upon structural
models, radioactivity, nuclear reactions, fission and fusion. PREREQ:
Knowledge
of elementary quantum mechanics and differential equations or
permission
of instructor. AF 


PHYS 4410 Science in American Society 2
credits. Observational basis of science; technology's historical
influences on
scientific developments; perceptions of science in contemporary
America;
tools/strategies for teaching science. Cross-listed as GEOL 4410.
PREREQ:
Junior standing and permission of instructor. AF 


PHYS 4415 Statistical Physics 3 credits.
Topics covered may include kinetic theory, elementary statistical
mechanics, random motion and the theory of noise. Choice of topics will
depend upon the interest of the students and instructor. PREREQ: PHYS
2212 and MATH 3360. AF 


PHYS 4416 Radiation Detection and
Measurement 3 credits. Lecture/laboratory course emphasizing
practical measurement techniques in nuclear physics. PREREQ: CHEM 1112,
CHEM 1112L, PHYS 1111, and PHYS
1113 or PHYS 2211 and PHYS 2213. S 


PHYS 4421 Electricity and Magnetism I 3
credits. Intermediate course in fundamental principles of
electrical and
magnetic theory. Free use will be made of vector analysis and
differential
equations. PREREQ: PHYS 2212 and MATH 3360. F 


PHYS 4422 Electricity and Magnetism II
3
credits. Intermediate course in fundamental principles of
electrical
and magnetic theory. Free use will be made of vector analysis and
differential
equations. PREREQ: PHYS 4421. S


PHYS 4430
Accelerator Physics 3 credits.  The
physics of direct voltage
accelerators, betatrons, synchrotrons, linear induction acceleration;
high
current accelerators; electromagnetic particle optics, free electron
lasers,
and synchrotron light sources. PREREQ: PHYS 4422 or permission of
instructor. D


PHYS 4442 Solid State Physics 3 credits.
Introduction
to the field of solid state physics emphasizing the fundamental
concepts. Topics usually covered are crystal structure, x-ray
diffraction, crystal binding energies, free electron theory of solids,
energy bands. PREREQ:
PHYS 3301 and MATH 3360 or permission of instructor. AF 


PHYS 4452 Intermediate Optics 3 credits.
Wave theory, e/m waves, production of light,
measurement of light, reflection, refraction, interference,
diffraction, polarization, optical systems, matrix methods, Jones
vectors, Fourier optics, propagation of e/m waves in materials,
atmospheric optics. PREREQ: PHYS 2212.  COREQ: MATH 3360. AS



PHYS 4453 Topics in Astrophysics 2
credits. Applications of upper division physics to astronomy or
cosmology. May
include lab exercise. PREREQ: Permission of instructor. AS 


PHYS 4461 Introduction to Mathematical
Physics I 3 credits. Introduction to the mathematics most commonly
used in
physics with applications to and practice in solving physical problems;
includes vector analysis, ordinary and partial differential equations.
PREREQ:
PHYS 2212 and MATH 3360. F 


PHYS 4462 Introduction to Mathematical
Physics II 3 credits. Introduction to the mathematics most
commonly used in physics with applications to and practice in solving
physical problems;
includes vector analysis, ordinary and partial differential equations.
PREREQ: PHYS 4461. S 


PHYS 4481 Independent Problems 1-3
credits.
Students are assigned to, or request assignment to, independent
problems on the basis of interest. May be repeated to a maximum of 6
credits. F,
S 


PHYS 4483 Theoretical Mechanics 4
credits.
Detailed study of the motion of particles, satellites, rigid bodies and
oscillating systems. Develop and apply Lagrangian and Hamiltonian
methods. PREREQ: PHYS 2212 and MATH 3360. F 


PHYS 4492 Colloquium in Physics 1 credit.
Faculty and student lectures in current research topics in physics.
Open to upper division and graduate students in physics. May be
repeated for up to 4 credits. F, S




PHYS 4497 Workshop 1-2 credits. Workshops
aimed at the development and improvement of skills. Does not satisfy
requirements for a major or a minor. May be repeated. Graded S/U. D 












Health Physics Courses

PHYS 2217 RCT Internship I 3 credits.
Structured Internship. An optional experience taken as a class the
summer prior to the start of the program.  PREREQ: Acceptance into
the program and
permission of the program director. Su

PHYS 2218 Fundamentals of Radiation
Protection Physics 3 credits. Atomic structure, nuclear structure,
fission and fusion, radioactive decay, types of radiation, decay
schemes, decay kinetics, interaction of radiation with matter, inverse
square, attenuation, shielding, sources of radiation, reactors;
accelerators, X-ray machines, units and
terminology. F 


PHYS 2219 RCT Internship II 3 credits.
Structured Internship.  A required class taken the summer
between the first and second years of the program. PREREQ: Acceptance
into the program and permission of the program director. Su 


PHYS 2225 Radiation Protection
Instrumentation 3 credits. Gas-filled detectors: theory of
operation, field applications, calibration and maintenance. 
Standard laboratory radiation detection instrumentation including solid
state detectors, liquid scintillation
detectors, scintillators, TLD and film dosimetry, and spectroscopy
techniques.
PREREQ: PHYS 2218. F 


PHYS 2226 Radiation Protection I 3
credits.
Principles of radiation protection; evaluating internal and external
exposures and controls, survey, sampling and inspections, analytical
techniques
and emergency preparedness. PREREQ:  PHYS 2218. S 


PHYS 2227 Radiation Protection II 3
credits.
Personnel dosimetry, prescribed dosimetry and radiation equipment,
radiation protection dosimetry,  procedures and programs (ALARA),
industrial ventilation, PPE, contamination control, shielding, hazard
evaluation primer on internal dosimetry and bioassay techniques. 
PREREQ: PHYS 2218. S 


PHYS 2228 Health Physics Regulations 3
credits. Reviewing 10 CFR 19, 20, 30, 35, 835 and portions of 49
CFR dealing with shipment of Radioactive Materials and acquainting
students with NCRP, NUREG, REG Guides, ICRP, etc. PREREQ: PHYS 2218. S 


PHYS 4411 Accelerator Health Physics 3
credits. Fundamentals of particle accelerator design and
operation. Examination of the potential radiation environment
associated with accelerators and health and safety issues of their
operation. PREREQ: Senior standing in health
physics or permission of instructor. D 


PHYS 4412 Environmental Health Physics 3
credits. State-of-the-art applied mathematical techniques for
estimating the release, transport, and fate of contaminants in
multi-media environmental pathways (air, ground water, terrestrial).
Both radiological and non-radiological contaminants will be addressed,
with emphasis on radiological contaminants. PREREQ: Permission of
instructor. Se 


PHYS 4413 Fundamentals of Industrial
Hygiene 3 credits. Overview on the recognition, evaluation, and
control of
hazards arising from physical agents in the occupational environment.
The
exposure consequences associated with agents of major occupational
health
concerns are considered. PREREQ: Permission of instructor. Se 


PHYS 4416 Radiation Detection and
Measurement 3 credits. Lecture/laboratory course emphasizing
practical measurement techniques in nuclear physics. PREREQ: CHEM 1112,
and PHYS 1111 and PHYS
1113, or PHYS 2211 and PHYS 2213. S 


PHYS 4417 Industrial Ventilation and
Aerosol Physics 3 credits. This course focuses on two distinct
subject areas: an elaboration on the details of the ACGIH method of
local exhaust-system design, and a study of applied aerosol physics
based upon trajectory analysis. PREREQ: Permission of instructor. Se 


PHYS 4418 Nonionizing Radiation
Protection
3 credits. Occupational safety and health issues of human exposure
to
non-ionizing radiation. Topics include health concerns and safety
strategies
developed for extremely low frequency, microwave, radio-frequency,
ultraviolet,
infrared, laser radiation, and soundwaves. PREREQ: Permission of
instructor.
Se 


PHYS 4419 Radiological Emergency
Planning
3 credits. Radiological emergency planning for facilities ranging
from reactors and other major nuclear facilities to transportation
accidents
and smaller-scale nuclear accidents. Topics include planning,
co-ordination, "exercises", exposure pathways, modeling, measurement,
control, decontamination, and recovery. PREREQ: Permission of
instructor. Se 


PHYS 4420 Reactor Health Physics 3
credits. Introduction to reactor physics; nuances peculiar to
reactor health physics; reactor designs. Critiques of exposure
pathways, accidents, decommissioning, contamination control, and
emergency planning examine radiation safety
approaches within the nuclear fuel cycle. PREREQ: Permission of
instructor.
Se 


PHYS 4431 Radiation Physics I 3 credits.
Atomic and nuclear structure, series and differential-equation
descriptions of radioactive decay, physical theory of the interaction
of radiation
with matter suitable for the discipline of Health Physics. PREREQ:
Permission of instructor. F 


PHYS 4432 Radiation Physics II 3 credits.
Continuation of PHYS 4431 considering dosimetric quantities/units,
theory and technology of radiation detection and measurement, and
radiobiology important to an advanced understanding of radiation
protection. PREREQ:
PHYS 4431 and permission of instructor. S 


PHYS 4433 External Dosimetry 3 credits. Lecture
course emphasizing external radiation protection including study of
point kernel techniques, monte carlo modeling, and NCRP-49 methods.
Also discussed are external dosimetry measurement techniques. PREREQ:
PHYS 4432 or permission of instructor. F 


PHYS 4434 Internal Dosimetry 3 credits. A
lecture course emphasizing internal radiation protection including
studies of ICRP2, ICRP26&30, ICRP60&66, and MIRD methods of
internal dosimetry. PREREQ: PHYS 4433 or permission of instructor. S 


PHYS 4455 Topics in Health Physics I 2
credits. A lecture/seminar course covering special topics in
Health Physics such as state and federal regulations, waste disposal
methodology, and emergency procedures. PREREQ: PHYS 4432 or permission
of instructor. F 


PHYS 4456 Topics in Health Physics II 2
credits. A continuation of PHYS 4455. A lecture/seminar course
covering special topics in Health Physics such as state and federal
regulations, waste disposal methodology, and emergency procedures.
PREREQ: PHYS 4432 or permission
of instructor. S 


PHYS 4480 Health Physics Capstone Course
3
credits. Senior project involving development of an abstract,
report, poster and oral presentation with synthesis of the many aspects
of the undergraduate Health Physics education into a unified focused
end point. PREREQ: Permission of instructor. S 


PHYS 4488 Advanced Radiobiology 3 credits. 
An advanced-level class covering aspects of molecular radiobiology,
teratogenesis, oncogenesis, and acute radiation illnesses.  It
also considers  nonstochastic radiation effects and the
epidemiology of radiation exposures.  Cross-listed as BIOL
4488.  PREREQ: Permission of instructor.  AF 


PHYS 4490 ABHP Review 3 credits. May
be repeated. A course for practicing professionals aimed at the
development and improvement of skills. May not be applied to
undergraduate or graduate degrees. May be graded S/U. S













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