 | Select the Course Number to get further detail on the course. Select the desired Schedule Type to find available classes for the course. |
| PHY 0100 - PHY Transfer Elective |
|
0.500 TO 99.000 Credit hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Transfer Physics Department |
| PHY 0105 - Natural Science B Requirement |
|
1.000 TO 9.000 Credit hours 1.000 TO 9.000 Other hours Levels: Undergraduate, Undergraduate Non-Degree Schedule Types: Transfer Admissions Department |
| PHY 0200 - PHY Transfer Elective |
|
0.500 TO 99.000 Credit hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Transfer Physics Department |
| PHY 0300 - PHY Transfer Elective |
|
0.500 TO 99.000 Credit hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Transfer Physics Department |
| PHY 0400 - PHY Transfer Elective |
|
0.500 TO 99.000 Credit hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Transfer Physics Department |
| PHY 0500 - PHY Transfer Elective |
|
0.500 TO 99.000 Credit hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Transfer Physics Department |
| PHY 0600 - PHY Transfer Elective |
|
0.500 TO 99.000 Credit hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Transfer Physics Department |
| PHY 100 - Elements:Phy for Liberal Arts |
|
~ Elements of Physics for Liberal Arts
^ Special Information: Lab Fee Required
A basic treatment of physics principles. Selected topics
from mechanics, heat, wave motion and electricity.
Lecture, 2 hours; laboratory, 2 hours. 3 credits.
3.000 Credit hours 2.000 Lecture hours 2.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture/Lab, Laboratory, Lecture Physics Department Course Attributes: T2PR-Natural World I (PR) |
| PHY 101 - Inquiries in Elem. Physics |
|
~ Inquiries in Elementary Physics
^ Prerequisite: MAT 105 or EDU Major.
^ Special Information: Lab Fee Required
Central topics and applications of physics studied
through laboratory-based investigations. Emphasis on
processes of science such as observation, measurement,
and construction of theories. Recommended for prospective
teachers, especially K-6. Some lab periods used for
visits to school science classes. Lecture, 1 hour;
laboratory, 4 hours. 3 credits.
3.000 Credit hours 1.000 Lecture hours 4.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department Course Attributes: T2PR-Natural World I (PR) |
| PHY 103 - Physics and Tech- Health Prof |
|
~ Physics and Technology for Health Professionals
^ Prerequisite: MAT 095 or placement in MAT 100, 102, or
^ higher.
^ Special Information: Lab Fee Required
An introduction to physics concepts and applications
associated with the medical professions. There is an
emphasis on technological applications and potential
ethical/societal impacts. 3 credits.
3.000 Credit hours 2.000 Lecture hours 2.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department Course Attributes: T1TF-Technological Fluency |
| PHY 111 - Physics for Today |
|
~ Physics for Today
An introduction to physics concepts with emphasis on
class demonstrations and everyday applications.
Lecture-demonstration, 3 hours. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department Course Attributes: T1CT-Critical Thinking |
| PHY 120 - Nanotechnology |
|
~ Physics for Tomorrow: Nanotechnology
^ Special Info: Lab Fee Required
An introduction, using only elementary algebra, to
contemporary ideas and discoveries such as relativity,
quantum mechanics and chaos, and their applications in
modern technology. 3 credits
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department Course Attributes: T1TF-Technological Fluency |
| PHY 123 - Critical Thinking and Science |
|
~ Critical Thinking and Science for Future Leaders
A critical analysis of contemporary science and physics
topics. The primary goal of this course is development of
critical thinking skills and habits of mind necessary to
think like a leader. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Hybrid, Lecture Physics Department Course Attributes: T1CT-Critical Thinking |
| PHY 200 - General Physics I |
|
~ General Physics I
^ Prerequisites: MAT 100 or MAT 102 or Math Placement of 122
^ or higher.
^ Special Information: Lab Fee Required
Motion, energy, vibrations, temperature, heat and fluids are
studied using algebra and trigonometry with an emphasis on
applications. 4 credits.
4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department Course Attributes: T2PR-Natural World I (PR) |
| PHY 201 - General Physics II |
|
~ General Physics II
^ Prerequisite: PHY 200.
^ Special Information: Lab Fee Required
A continuation of PHY 200. Electricity, magnetism, circuits,
waves, optics, and the atomic and nuclear structure of
matter are studied using algegra and trigonometry with an
emphasis on applications. 4 credits.
4.000 Credit hours 4.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture/Lab, Laboratory, Lecture Physics Department |
| PHY 210 - College Physics |
|
~ College Physics
^ Special Conditions: Lab fee
^ Prerequisites: MAT 100 or MAT 102 or Math Placement of
^ 122 or higher.
^ Special Information: Lab Fee Required
Selected topics from the field of basic physics employing
algebra and trigonometry. 4 credits.
4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department Course Attributes: T2PR-Natural World I (PR) |
| PHY 230 - Physics-SCE & EGR I |
|
~ Physics for Scientists and Engineers I
^ Prerequisites: C- or better in MAT 122 or
^ Math Placement of MAT 150.
^ Special Information: Lab Fee Required
Basic principles of mechanics, heat and wave motion are
studied using calculus with an emphasis on applications.
Students who have not taken high school physics are advised
to take a semester of elementary physics before enrolling in
this course. MAT 150 must be taken prior to or concurrent
with this course. 4 credits.
4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department Course Attributes: T2PR-Natural World I (PR) |
| PHY 231 - Physics-Scientists&EngineersII |
|
~ Physics for Scientists and Engineers II
^ Prerequisites: PHY 230 and C- or better in MAT 150.
^ Special Information: Lab Fee Required
Basic principles of electricity, magnetism and optics are
studied using calculus with an emphasis on applications.
MAT 151 must be taken prior to or concurrent with this
course. 4 credits.
4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department |
| PHY 251 - Engineering Mech I- Statics |
|
~ Engineering Mechanics I: Statics
^ Prerequisites: PHY 230 and MAT 151.
The emphasis of this course is on analyzing the forces and
torques acting on objects and structures which are at rest.
Topics include calculations of centers of mass and moments
of inertia for extended bodies and the application of
Newton's second law in multiple dimensions to systems of
particles and rigid bodies in equilibrium. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department |
| PHY 309 - Modern Physics |
|
~ Modern Physics
^ Prerequisites: (ENG 111 or 112) and C- or better
^ in MAT 151, PHY 230, and PHY 231.
Relativity, atomic structure, quantum physics and nuclear
transformations are studied. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Hybrid, Independent Study, Lecture Physics Department |
| PHY 340 - Lasers and Fiber Optics |
|
~ Lasers and Fiber Optics
^ Special Information: Lab Fee Required
^ Prerequisites: PHY 231 and MAT 151.
Coherent light and photons, fundamentals of laser theory,
semiconductor lasers, laser applications. Multi-mode and
single-mode optical fibers. Fiber optic systems and
telecommunications. 2 hours lecture, 3 hour laboratory.
3 credits.
3.000 Credit hours 2.000 Lecture hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Laboratory, Lecture Physics Department |
| PHY 355 - Electricity & Electronics |
|
~ Electricity and Electronics
^ Prerequisite: PHY 201, 210, or 231.
^ Special Information: Lab Fee Required
An operational introduction to DC and AC circuits and
electronic devices (diodes and transistors) emphasizing
laboratory skills. Lecture, 2 hours; laboratory, 6 hours.
4 credits.
4.000 Credit hours 2.000 Lecture hours 6.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture/Lab Physics Department |
| PHY 370 - Modern Physics Laboratory |
|
~ Modern Physics Laboratory
^ Prerequisite: PHY 231 and PHY 309.
^ Special Conditions: Lab Fee.
Selected major experiments from modern physics. Data
analysis and presentation skills will be emphasized.
Lecture, 1 hour; Lab, 3 hours. 2 credits.
2.000 Credit hours 1.000 Lecture hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture/Lab, Laboratory, Lecture Physics Department |
| PHY 398 - Special Topics in Physics |
|
~ Special Topics in Physics
^ Prerequisite: PHY 201 or PHY 210 or PHY 231
Examination of developments, issues, and/or creative work in
the field of Physics. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture Physics Department |
| PHY 400 - Classical Mechanics I |
|
~ Classical Mechanics I
^ Prerequisite: PHY 231 and MAT 151.
^ MAT 252 must be taken prior to or concurrently.
Application of Newton's laws in one and multiple dimensions,
to moving coordinate systems, and to systems of particles.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department |
| PHY 401 - Classical Mechanics II |
|
~ Classical Mechanics II
^ Prerequisite: PHY 400 and MAT 252.
A continuation of PHY 400. A study of rigid body motion,
the Lagrange and Hamilton equations of motion, and small
oscillations. It is recommended that MAT 245 be taken prior
to or concurrent with this course. Lecture, 3 hours.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department |
| PHY 405 - Scient Computer Interfacing |
|
~ Scientific Computer Interfacing
^ Prerequisite: PHY 355.
Computer peripherals, interfacing method standards. Use
of machine language and digital electronics for measurement
and control of physical phenomena. Lecture, 2 hours;
laboratory, 3 hours. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture Physics Department |
| PHY 406 - Electricity & Magnetism |
|
~ Electricity and Magnetism
^ Prerequisites: PHY 231 and MAT 252.
Basic principles of electromagnetism, electrical and
magnetic properties of matter, Maxwell's equations.
It is recommended that MAT 245 and PHY 400 be taken
prior to or concurrent with this course. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture Physics Department |
| PHY 410 - Optics |
|
~ Optics
^ Prerequisites: PHY 231; MAT 252 which may be taken
^ concurrently.
Principles of physical optics and their modern
applications. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture Physics Department |
| PHY 411 - Optics Laboratory |
|
~ Optics Laboratory
^ Corequisite: PHY 410.
A planned sequence of experiments in classical and modern
optics. Laboratory only, 3 hours. 1 credit.
1.000 Credit hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab Physics Department |
| PHY 415 - Solid State Physics |
|
~ Solid State Physics
^ Prerequisites: MAT 151 and PHY 309.
Crystal structure, X-ray diffraction, lattice vibrations,
band theory of metals, electrical conductivity of metals
and semi conductors, semi conductor devices,
superconductivity. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department |
| PHY 430 - Thermodynamics |
|
~ Thermodynamics
^ Prerequisites: PHY 231 and MAT 252.
Basic principles of heat and energy transfer applied to the
properties of matter. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture Physics Department |
| PHY 440 - Intro to Quantum Mechanics |
|
~ Introduction to Quantum Mechanics
^ Prerequisite: PHY 309 and MAT 252.
Physical concepts and mathematical formalism of quantum
mechanics. Topics include the Schrodinger equation,
eigenfunctions and approximation methods. It is recommended
that MAT 245 and MAT 372 be taken prior to or concurrent
with this course. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture Physics Department |
| PHY 461 - Methods in Physics Research |
|
~ Methods in Physics Research
^ Prerequisite: PHY 370.
^ Special Information: Lab Fee Required
Exposes students to the areas of research in which our
faculty are engaged. Student will carry out a series of
research related activities each under supervision of a
different faculty member. Lab, 6 hours. 2 credits.
2.000 Credit hours 6.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Laboratory Physics Department |
| PHY 470 - Adv Experimental Physics I |
|
~ Advanced Experimental Physics I
^ Prerequisites: PHY 231 and 309.
^ Special Information: Lab Fee Required
Laboratory work covering the important experimental
discoveries of 20th-century physics, data analysis,
and presentation of results. Course consists of a
three-hour laboratory weekly and outside reading.
1 credit.
1.000 Credit hours 3.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture/Lab Physics Department |
| PHY 471 - Capstone Experience: Physics |
|
~ Capstone Experience in Physics
^ Prerequisite: PHY 461 or PHY 470.
^ Special Information: Lab Fee Required
A continuation of PHY 461, this course is the culminating
capstone experience in physics. It requires an independent
research project or design activity and a significant
written report. Course consists of a six hour laboratory per
week and outside work. 3 credits.
3.000 Credit hours 6.000 Lab hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture/Lab, Laboratory Physics Department |
| PHY 499 - Independent Study & Research |
|
~ Independent Study and Research
^ Prerequisite: departmental permission.
1-4 credits.
1.000 TO 4.000 Credit hours 1.000 TO 4.000 Other hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study Physics Department |
| PHY 507 - Applied Physics Grad Seminar |
|
~ Applied Physics Graduate Seminar
An overview of current topics in Applied Physics research.
An introduction to scientific writing, speaking, and
professional ethics.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Hybrid, Independent Study, Online, Seminar Physics Department |
| PHY 511 - Exper. & Demo. in Physics |
|
~ Experiments and Demonstrations in Physics
^ Prerequisite: Departmental permission
A laboratory course covering the theory and operation of
currently available equipment. Measurements, equipment
limitations, creative use of equipment, and effective demon-
strations are discussed. Two three-hour laboratories weekly.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate Schedule Types: Lecture Physics Department |
| PHY 512 - Methods of Theoretical Phys.I |
|
~ Methods of Theoretical Physics I
^ Prerequisites: MAT 150 and MAT 151, 18 credits of under-
graduate physics or departmental permission.
The development of the laws of physics in mathematical form.
The applications of these laws to various physical problems
and a discussion of the mathematical methods employed.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate Schedule Types: Lecture Physics Department |
| PHY 513 - Methods of Theoretical Phy. II |
|
~ Methods of Theoretical Physics II
^ Prerequisite: PHY 512
Continuation of content covered in PHY 512. 3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate Schedule Types: Lecture Physics Department |
| PHY 519 - Fundamentals of Nanoscience |
|
~ Fundamentals of Nanoscience
^ Prerequisites: PHY 309 and CHE 121
A highly interdisciplinary introduction to the science of
nanoscale materials (nanoscience). Topics will include
historical background, characterization techniques,
physics and chemistry of nanoscale materials, fabrication
techniques, nanoscale applications and ethical/societal
considerations.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Lecture/Lab, Laboratory, Lecture Physics Department |
| PHY 520 - Physics for Nurse Anesthetists |
|
~ Physics for Nurse Anesthetists
^ Prerequisites: acceptance in the M.S. in Biology -
^ specialization in nurse anesthetist program in
^ Bridgeport School of Anesthesia.
Detailed study of the principles and their application of
gases and liquids as they pertain to anesthesia. Math
review, instrumentation used and basic electrical and gas
handling safety practices. 3 credits
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Lecture Physics Department |
| PHY 521 - Char. of Nanomaterials |
|
~ Characterization of Nanomaterials
^ Prerequisite: PHY 519
This course will introduce theory and operating principles
for state-of-the-art techniques commonly used in the
characterization of materials at the nanoscale. Two
important aspects of characterization, nano-structure
and chemical analysis, are included. Will emphasize
force, transmission and scanning electron microscopy.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Hybrid, Independent Study, Lecture Physics Department |
| PHY 523 - Nanotech IV: Nanosystems Lab |
|
~ Nanosystems Laboratory
^ Prerequisite: Nine credits in nanotech/nanoscience or dept
^ permission. Special Conditions: Lab Fee.
This course serves as a capstone hands-on experience
focusing on the use of various characterization techniques
suitable to studying materials on the nanoscale, such as
electron microscopy and atomic force microscopy.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate, Undergraduate Non-Degree Schedule Types: Independent Study, Lecture/Lab, Laboratory, Lecture Physics Department |
| PHY 530 - Optics and Optical Detectors |
|
~ Optics and Optical Detectors
^ Prerequisite: PHY 309 or equivalent
Provides a basic understanding of the scientific principles
associated with optics and optical image formation, as well
as image capture, processing and analysis. And end-to-end
treatment of the imaging system will be employed to
illustrate the inter-relationships of the concepts
introduced. The student will become familiarwith systems
analyses of simple imaging systems and image
analysis methods.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate Schedule Types: Lecture Physics Department |
| PHY 531 - Interferometric Meth in Img |
|
~ Interferometric Methods in Imaging and Precision
~ Measurement
^ Prerequisite: PHY 530
The interference of light is discussed in detail.
Applications to high-resolution imaging and precision
measurement are covered, including techniques such as
electronic speckle pattern interferometry, long baseline
optical interferometry, and related techniques. The student
will become familiar with the basic performance metrics and
main types of interferometers in use today.
3 credits.
3.000 Credit hours 3.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Lecture Physics Department |
| PHY 580 - Special Project |
|
~ Special Project
^ Prerequisite: Departmental Permission
The student will conduct a research project in Physics
either on campus or in the context of an internship with a
local company. The special project may either be a
Technological Special Project or an Entrepreneurial
Special Project. There will be a product as defined in the
School of Graduate Studies Guidelines for special projects
at the conclusion of the course.
3 or 6 credits.
3.000 OR 6.000 Credit hours 3.000 OR 6.000 Other hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Field Study Physics Department |
| PHY 590 - Thesis Research I |
|
~ Thesis Research I
The student will develop a thesis proposal according
to accepted style guidelines, including a current
literature review of the thesis topic and a
description of the project design, and begin the
research.
3.000 Credit hours 3.000 Other hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Thesis Physics Department |
| PHY 591 - Thesis Research II |
|
~ Thesis Research II
^ Prerequisite: PHY 590
Thesis investigation conducted under the supervision of an
aproved advisor. Completion of the written thesis and oral
defense of the research work in the thesis.
3.000 Credit hours 3.000 Other hours Levels: Graduate Schedule Types: Thesis Physics Department |
| PHY 599 - Special Topics in Physics |
|
1.000 TO 4.000 Credit hours 1.000 TO 4.000 Lecture hours Levels: Graduate Non-Matriculant, Graduate Schedule Types: Lecture Physics Department |
| PHY 600 - Independent Study & Research |
|
~ Independent Study and Research
^ Prerequisite: departmental permission.
3 credits
3.000 Credit hours 3.000 Other hours Levels: Graduate Non-Matriculant, Graduate, Undergraduate Schedule Types: Independent Study Physics Department |
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