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Description of the Physics Program

Typical course of study in physics

Physics Major Requirements

Physics Minor Requirements

Health Physics Minor Requirements

Astronomy Course List

Physics Course List

General Science Course List

Description of the Physics Program

The physics program has a strong emphasis in Mathematics and is recommended for students with a career interest in Physics as a profession or in teaching Physics or in pursing graduate studies.

As a fundamental science, Physics is required in the training of students in many disciplines. To accommodate students in disciplines that do not emphasize a strong Mathematics background, the curriculum also offers algebra-based Physics.

The Astronomy program is augmented by observations at the University's Jones Observatory. This off-campus observatory is also used for demonstration purposes for the community at large.

        Physics Major (B.S.)

          General Education (see pages 22-24 for list of approved courses)

1. Category A: 2 approved courses in written communication in the English language (6 hours)
2. Category B: 3 approved courses: one from humanities, one from fine arts, and one from either (3 hours each)
3. Category C: 2 approved behavioral or social science courses (6 hours)
4. Category D: 1 approved physical or natural science course other than physics with laboratory (4 hours; approved related courses below will apply)
5. Category F: 1 approved mathematics course (3 hours; approved related courses below will apply)
6. Category G: 1 approved perspectives course (3 hours)
7. Exercise Science, Health and Leisure Studies 021 plus one additional semester exercise science activity.

    

   Major and related courses

8. One of the following two options: 1. Two semesters of French or German 2. Computer Science 118 or Engineering 124
9. Mathematics F150, 160, 212, 245, 255
10. Chemistry D121, 122
11. Physics 230 (or 103 and 104)
12. Physics 231 and 232
13. Physics 341, 342, and 411
14. 6 hours from Physics 381r, 382r, 481r, and 482r
15. 30 additional hours from physics, astronomy, chemistry, engineering, and mathematics at the 200 level or above or from geology and biology or other fields with prior approval by the department.
16. At least 30 hours of physics and astronomy at the 300 and 400 level 2.0 average in all physics courses
17. Electives to complete 128 hours

1. Physics Minor

2. Required courses: Physics 230 (or 103 or Engineering 103 and 104), Physics 231, Physics 232 (or 104).
3. Elective courses: A planned program of at least 12 hours of physics at the 300-400 level selected with the prior approval of the department.
4. Minimum 2.0 average in the minor.

Health Physics Minor

1. 19 hours of physics including:
2. A. One of the following introductory options: 103 and 104; or 230, 231, and 232; or Engineering 103, 104, Physics 231, and 232.
3. B. Physics 441, 442, 482r and 3 hours from 318, 412, 419, or departmentally approved special projects.
4. Minimum 2.0 average in the minor.

Typical course of study in physics (B.S.)

First semester                        Second Semester

 

FRESHMAN

Chemistry D121                   4    Physics 230                      4

Mathematics F150                 4    Chemistry 122                    4

General Education Category A     3    Mathematics 160                  4

General Education Category B     3    General Education Category A     3

Elective                         3    EHLS 021                         1

Total                           17    Total                           16

 

SOPHOMORE

Physics 231                      4    Physics 232                      4

Mathematics 212                  3    Mathematics 255                  3

Mathematics 245                  3    General Education Category B     3

General Education Category B     3    General Education Category C     3

General Education Category C     3    Computer Science 118 or

                                      Engineering 124                  3

                                      EHLS Activity                    1

Total                           16    Total                           17

 

JUNIOR

Physics 341                      4    Physics 342                      4

Physics Electives                5    Physics Elective (300 level

                                        or above)                      4

General Education Category G     3    Elective                         3

Physics 381r                     2    Physics 382r                     2

Foreign Language*                3    Foreign Language*                3

Total                           17    Total                           16

 

SENIOR

Physics 411                      4    Electives                       12

Physics 481r                     2    Physics Electives                3

Electives                        8

Total                           14    Total                           15

 

                                                         TOTAL HOURS 128

 

*Select a computer class (1 semester) or a foreign language (2 semesters).

Astronomy Course List

• 101 Introduction to Astronomy-The Solar System
• 102 Introduction to Astronomy-Stars to Galaxies
• 199r Special Projects
• 300r Advanced Astronomy Laboratory
• 401 Solar System Astrophysics
• 498r Individual Studies
• 499r Group Studies

• 103 General Physics - Mechanics
• 104 General Physics - Electromagnetism and Optics
• 199r Special Projects
• 230 Principles of Physics - Mechanics and Heat
• 231 Principles of Physics - Electricity and Magnetism
• 232 Principles of Physics - Optics and Modern Physics
• 303 Basic Electronics
• 304 Electronic Circuits
• 307 Optics
• 310 Introduction to Thermal Physics
• 318 Radiation Physics and Introductory Health Physics
• 341 Classical Mechanics
• 342 Electricity and Magnetism
• 381r Methods of Experimental Physics
• 382r Classical Physics Laboratory
• 400r Physics Seminar
• 411 Atomic Physics: An Introduction to Quantum Mechanics
• 412 Nuclear Physics
• 414r Advanced Modern Physics
• 419 Introduction to Nuclear Reactor Physics
• 424 Instrumentation, Interfacing, and Microcomputers
• 425 Computer Based Materials Development in Science
• 430 Physics of Living Systems - Hemodynamics
• 441 Radiation Dosimetry
• 442 Radiation Biology
• 481r Atomic Physics Laboratory
• 482r Nuclear and Health Physics Laboratory
• 495r Departmental Honors
• 497r Research
• 498r Individual Studies
• 499r Group Studies

Astronomy Course Catalog Copy

101 Introduction to Astronomy-The Solar System (4 with lab, 3 without)

Descriptive and conceptual. The structure, nature, and origin of the solar system. Optional 2-hour laboratory illustrates concepts of practical astronomy. On demand. Lecture 3 hours.

 

102 Introduction to Astronomy-Stars to Galaxies (4)

The nature of stars and galaxies; the evolution and structure of the observable universe with an emphasis on understanding the experimental foundations of the science. Fall semester. Lecture 3 hours, laboratory 2 hours. Prerequisite: two years of high school algebra or Mathematics 106. Corequisite: Astronomy 102 laboratory.

 

199r Special Projects (1-4)

Individual or Group Studies. Maximum credit 4 hours. On demand.

 

300r Advanced Astronomy Laboratory (1)

Laboratory techniques in astronomy. Applications of spectroscopy, optics, modern photographic techniques, and photometry to observational astronomy. Extensive use of the University's observatory. Every semester. Maximum credit 2 hours. Prerequisite: Astronomy 101 or 102 or permission of instructor.

 

401 Solar System Astrophysics (3)

Application of basic physical laws to the problem of the origin and evolution of the solar system. Solar structure and energy sources, radiative transfer, the solar magnetic field, the interplanetary medium, celestial mechanics, comets, meteors, asteroids, the planets, and their satellites. On demand. Prerequisite: Physics 342 or permission of instructor.

 

498r Individual Studies (1-4)

On demand.

 

499r Group Studies (1-4)

On demand. GENERAL SCIENCE COURSES

111 The Physical Environment: Atoms to Galaxies (4)

Explores physical science in three ways: physical science in its historical and sociological significance, the process of science, and the present content of scientific fact and theory. Topics include physics, chemistry, geology, and astronomy. Fall semester. Lecture 3 hours, laboratory 2 hours. Prerequisite: 2 units of college preparatory mathematics or Mathematics 106.

Physics Course Catalog Copy

103 General Physics - Mechanics (4) Fall, Spring, Summer

An algebra-based introduction to forces and uniform motion, conservation principles, sound, and the law of thermodynamics, with applications to problems of modern science and technology. Required in pre-medical, pre- dental, pre-pharmacy, and physical therapy programs. Fall semester. Lecture 3 hours, laboratory 2 hours. Prerequisites: 3 units of college preparatory mathematics.

 

104 General Physics - Electromagnetism and Optics (4) Fall, Spring, Summer

An algebra-based introduction to classical electricity and magnetism, optics, and the concepts of modern physics. Required in pre-medical, pre-dental, pre-pharmacy, and physical therapy programs. Spring semester. Lecture 3 hours, laboratory 2 hours. Prerequisites: 3 units of college preparatory mathematics, Physics 103 or permission of instructor.

 

199r Special Projects (1-4)

Individual or group projects. On demand. Maximum credit 4 hours.

 

230 Principles of Physics - Mechanics and Heat (4) Fall (evening), Spring (day)

A calculus-based introduction to the laws of classical dynamics, kinematics, and thermodynamics, with applications to simple physical systems. Offered both fall and spring semesters. Lecture 3 hours, laboratory 2 hours. Corequisite: Mathematics 160 or permission of the instructor.

 

231 Principles of Physics - Electricity and Magnetism (4) Fall, Spring, Summer

A calculus-based introduction to electric and magnetic fields, electric currents, electromagnetic induction and waves. For all engineering students. Fall semester. Lecture 3 hours, laboratory 2 hours. Prerequisites: Engineering 103 and 104, or Physics 104 or Physics 230; Mathematics 150, 160; or permission of the instructor.

 

232 Principles of Physics - Optics and Modern Physics (4) Fall, Spring, Summer

A calculus-based survey of principles of optics, and of the early conceptual advances in 20th-century physics: the Bohr atom, quantum theory, relativity, nuclear physics and elementary particles. For all engineering students. Spring semester. Lecture 3 hours, laboratory 2 hours. Prerequisites: Engineering 103 and 104, or Physics 103 and 104, or 230; Mathematics 150, 160; or permission of the instructor.

 

303 Basic Electronics (4)

Review of simple DC and AC circuitry; applications of diodes, transistors, and operational amplifiers; introduction to digital electronics using TTL integrated circuits and their applications. Spring semester. Lecture 3 hours, laboratory 2 hours. Prerequisites: Physics 103 and 104, or Physics 231; Mathematics 160; or permission of the instructor.

 

304 Electronic Circuits (4)

The theory and use of basic electronic instruments for electrical measurement or control. Multi-stage amplification, feedback, oscillators, and digital/logic circuitry treated with permission of the instructor.

 

307 Optics (4)

Geometrical and physical optics, including reflection, refraction, interference, diffraction, and polarization; introduction to theory of spectra. Spring semester every other year. Lecture 3 hours, laboratory 2 hours. Prerequisites: Physics 230, 231, 232 (or 103, 104); Mathematics 160; or permission of the instructor.

 

310 Introduction to Thermal Physics (4)

The laws of thermodynamics, kinetic theory, and statistical mechanics through the macroscopic description and microscopic theory of thermal phenomena. Spring semester every other year. Prerequisites: Physics 230, 231, 232 (or 103, 104). Corequisite: Mathematics 255; or permission of the instructor.

 

318 Radiation Physics and Introductory Health Physics (3)

An introduction to ionizing radiation, its production and interaction with matter, its biological effects and its measurement. Radiation protection practices and regulatory guidelines. The uses of radiation and radioisotopes in biology, chemistry, environmental sciences, and medicine. Benefits and hazards of nuclear energy. Nuclear weapons and the effects of nuclear warfare. On demand. Prerequisite: 104 or 232, or permission of the instructor.

 

341 Classical Mechanics (4) Fall

An introduction to the dynamics of particles and continuous media; Newton's law of motion, conservation laws, generalized coordinates, Lagrange's equations, and the principle of least action; the mechanics of continuous media, wave motion, sound, hydrostatics, rotational and irrotational flow, the equation of continuity, Laplace's equation. Fall semester. Lecture 3 hours, recitation 2 hours. Prerequisites: 230, 231 or 103 & 104, or permission of the instructor. Corequisite: Mathematics 245 or 255.

 

342 Electricity and Magnetism (4) Spring

Basic laws of electromagnetism, electric and magnetic properties of materials, Maxwell's equations, boundary value problems, electromagnetic waves. Spring semester. Lecture 3 hours, recitation 2 hours. Prerequisite: 341 or Mathematics 245 255, or permission of the instructor.

 

381r Methods of Experimental Physics (2)

An introduction to experimental design and techniques. Introduction to timing and timing coincidence measurements, measurement of thermodynamic properties, and electrical and magnetic measurements. Fall semester. Maximum credit 4 hours. Lecture 1 hour, laboratory 2 hours. Prerequisites: 230, 231, 232 (or 103, 104); Mathematics 245, 255, or permission of the instructor.

 

382r Classical Physics Laboratory (2)

An advanced laboratory course emphasizing the measurement and analysis of the properties of classical physical systems in optics, mechanics, electricity and magnetism, thermodynamics and materials science. Spring semester. Maximum credit 4 hours. Lecture 1 hour, laboratory 2 hours. Prerequisites: 230, 231, 232 (or 103, 104); Mathematics 245, 255, or permission of the instructor.

 

400r Physics Seminar (1)

A study of reporting and review for physics research, including the abstracting of published reports. On demand. Maximum credit 2 hours.

 

411 Atomic Physics: An Introduction to Quantum Mechanics (3)

Elements of atomic theory with emphasis on atomic structure, radiation processes, spectroscopic analysis, crystal structure, and wave phenome- na. Fall semester. Prerequisites: 230, 231, 232 (or 103, 104); Mathematics 245, or permission of the instructor.

 

412 Nuclear Physics (3)

The theory of nuclear structure; nuclear radiation characteristics; the interaction of radiation with matter; nuclear binding forces; the control and use of nuclear radiation. Spring semester. Prerequisites: 230, 231, 232 (or 103, 104); Mathematics 245, or permission of the instructor.

 

414r Advanced Modern Physics (3)

One topic selected from biophysics, elementary particles, quantum mechanics, relativity, solid state physics, statistical mechanics, or superconductivity. Emphasis on the relation of the assumptions and predictions of the theories to the experimental evidence. Consequences of the theories illustrate the nature of physics and its applications in modern science. On demand. Prerequisites: Physics 341; Mathematics 245, 255; or permission of the instructor. May be taken a maximum of three times.

 

419 Introduction to Nuclear Reactor Physics (3)

Nuclear reactions and radiation; fission processes, neutron diffusion, reactor design variables, reactor materials and shielding, reactivity coefficients. On demand. Prerequisite: 412 or equivalent, or permission of the instructor.

 

424 Instrumentation, Interfacing, and Microcomputers (3)

Interfacing instruments, measuring devices, and controls to mini and microcomputers. Including voltmeters, counters, timers, temperature, and other sensors, CRTs, floppy-disks, keyboards, music synthesizers, and control devices such as relays, thermostats, stepper motors, oscillators, and power supplies. Considers standard S100, IEE-488, and RS232C bus structures. Survey of microcomputer applications. Projects involving interfacing instruments with microcomputers. Spring semester. Lecture 2 hours, laboratory 2 hours. Prerequisites: 104, 232 or equivalent; Computer Science 110 or equivalent, permission of the instructor.

 

425 Computer Based Materials Development in Science (3)

The basic principles and practice of developing computer based materials for science education. Projects to be chosen from a pool of topics in a specific area of science. Each module to include documentation, a tutorial, a pretest, a post test, explanatory material, a question set, a problem set, a graphics segment, etc. Modules to be prepared to publication standards. Prerequisite: CPSC 102 or equivalent or permission of the instructor. Enrollment limited to juniors or above or permission of the instructor.

 

430 Physics of Living Systems - Hemodynamics (3)

A study of the physical properties and nature of the cardiovascular system. Topics include steady flow, viscous properties of blood, properties of the vascular wall, pulsatile pressure and flow, the normal hemodynamic state, vascular impedance, wave reflection, wave propagation, cardiac dynamics, methods of measurement, recording and analysis of data. Spring, alternative year. Prerequisites: Physics 230, 231; Mathematics 255 or permission of the instructor.

 

441 Radiation Dosimetry (3)

An introduction to the theory and methodology of determining exposure and dose from ionizing radiation. Topics include: radioactivity and radioactive decay processes; the interaction of ionizing radiation with matter; exposure, dose and KERMA; cavity chamber theory; and instrumentation for radiation and dose measurement. On demand. Prerequisites: 104 or 232, or permission of the instructor.

 

442 Radiation Biology (3)

The molecular effects of ionizing radiation and the relationship between molecular events and the acute and chronic effects of ionizing radiation. The human data base for estimates of the effects of low levels of ionizing radiation. Risk assessment of exposure to populations. On demand. Prerequisites: 104 or 232, or permission of the instructor.

 

481r Atomic Physics Laboratory (2)

An advanced laboratory on experimental methods used in atomic physics. Laboratory experiments may be chosen from a menu of experiments that includes emission and absorption spectra of atoms and atomic ions, the Franck-Hertz experiment, the Stern-Gerlach experiment, electron-spin resonance, and nuclear magnetic resonance. Analysis of experimental results will be used to study theoretical models of physical processes. Fall semester. Maximum credit 4 hours. Lecture 1 hour, laboratory 2 hours. Prerequisites: 230, 231, and 232 (or 103, 104); Mathematics 245, or permission of the instructor.

 

482r Nuclear and Health Physics Laboratory (2)

A laboratory course in nuclear physics emphasizing the use of modern detection and counting equipment. Laboratory exercises include radiation dosimetry, radioisotope techniques, neutron scattering, gamma-gamma correlation, and the study of nuclear radiation detection. Spring semester. Maximum credit 4 hours. Lecture 1 hour, laboratory 2 hours. Prerequisites: 230, 231, 232 (or 103, 104, 318); Mathematics 245, or permission of the instructor.

 

495r Departmental Honors (1-3 hours per term, 4 hours for the two terms)

On demand. See "Departmental Honors," page 27.

 

497r Research (1-4)

On demand.

 

498r Individual Studies (1-4)

On demand.

 

499r Group Studies (1-4)

On demand.

The University of Tennessee at Chattanooga
Dept 6556 
615 McCallie Avenue 
Chattanooga, TN 37403-2598 
ph: 423-425-4404 or 425-4546 
email: Habte-Churnet@utc.edu