Physics Courses

Wei Jiang Yeh, Dept. Chair, Dept. of Physics; (323 Engineering/Physics Bldg. 838440903; phone 208/8855768; physics@uidaho.edu)
Credit Limitations: Phys 100 carries no credit after 111 or 211; Phys 111 carries no credit after 211; 112 carries no credit after 212.
Phys 100 Fundamentals of Physics (4 cr)
May be used as core credit in J3b. For students in nontechnical fields. Conceptual study of laws of nature and their application, including mechanics, heat, electricity and magnetism, light, and modern physics. Three lec and one 2hr lab a wk. (Spring only)
Phys 103 General Astronomy (3 cr)
May be used as core credit in J3b. Descriptive and physical astronomy; development of astronomical thought; properties and evolution of the solar system, stars, galaxies, and the universe. (Fall only)
Phys 104 Astronomy Lab (1 cr)
May be used as core credit in J3b. Naked eye, telescopic, and photographic observations of constellations, stars, and planets. One 2hr lab a wk; some evening meetings.
Prereq or Coreq: Phys 103
Phys 111 General Physics I (4 cr)
May be used as core credit in J3b. Kinematics, forces and dynamics, conservation laws, thermodynamics, waves. Three lec, one recitation, and one 2hr lab a wk.
Prereq: Math 143
Phys 112 General Physics II (4 cr)
May be used as core credit in J3b. Electricity, magnetism, optics, and modern physics. Three lec, one recitation, and one 2hr lab a wk.
Prereq: Phys 111
Phys 200 (s) Physics Seminar (1 cr, max 8)
Introductorylevel discussion of topics in modern physics; introduction to physics research topics and scientific information search techniques; written and/or oral reports of a pertinent topic in current physics. (Fall only)
Phys 211 Engineering Physics I (4 cr)
May be used as core credit in J3b. Kinematics and dynamics, Newton's laws, work and energy, rotational dynamics, linear and angular momentum, collisions, static equilibrium, oscillations, gravity and central forces. Three lec, one recitation, and one 2hr lab a wk.
Prereq or Coreq: Math 170
Phys 212 Engineering Physics II (4 cr)
May be used as core credit in J3b. Electric fields and potentials, magnetic fields, capacitance and inductance, DC and AC circuits, electromagnetic waves. Three lec, one recitation, and one 2hr lab a wk.
Prereq: Phys 211
Prereq or Coreq: Math 175
Phys 213 Engineering Physics III (4 cr)
Fluid dynamics, waves in elastic media, sound waves, temperature, heat and thermodynamics, kinetic theory, geometric and physical optics. Three lec, one recitation, and one 2hr lab a wk. (Spring only)
Prereq: Phys 211
Prereq or Coreq: Math 175
Phys 301 Junior Physics Lab (2 cr)
Experimental techniques in modern physics, including optics, atomic, nuclear, and solid state physics; computer uses, error analysis, and scientific literature searches. One 1hr lec and one 3hr lab a wk. (Spring only)
Prereq: Phys 213 or Permission
Phys 305 Modern Physics (3 cr)
Quantum and relativity theories with applications to atomic, solid state, nuclear, and elementary particle physics. (Spring only)
Prereq: Phys 212
Phys 321 Analytical Mechanics (3 cr)
Kinematics and dynamics of particles; oscillating systems; dynamics of the rigid body.
Phys 322 Analytical Mechanics (3 cr)
Principle of least action, dynamics of systems of particles, theory of oscillations, mechanics of continuous media.
Prereq: Phys 321
Phys 341 Electromagnetic Fields I (3 cr)
Theory using vector calculus; electrostatics; magnetostatics, electromagnetism, analysis of AC and DC circuits; Maxwell's equations; radiation and propagation of electromagnetic waves.
Phys 342 Electromagnetic Fields II (3 cr)
Theory using vector calculus; electrostatics; magnetostatics, electromagnetism, analysis of AC and DC circuits; Maxwell's equations; radiation and propagation of electromagnetic waves.
Prereq: Phys 341
Phys 351 Introductory Quantum Mechanics I (3 cr)
Onedimensional theory; free particle, bound states, potential barriers, harmonic oscillator, matrix methods, and Dirac notation; interpretations of quantum theory.
Phys ID371 Mathematical Physics (3 cr) WSU Phys 371
Same as Math 371. Mathematical techniques needed in upperdivision physics courses, including vector analysis, matrices, SturmLiouville problems, special functions, partial differential equations, complex variables.
Phys 400 (s) Seminar (cr arr)
Phys 403 (s) Workshop (cr arr)
Phys 404 (s) Special Topics (cr arr)
Phys 411 Physical Instrumentation I (3 cr)
Methods and instruments used in experimental physics; electronic techniques; design problems in electronic measurement of physical quantities encountered in research. Two lec and one 3hr lab a wk.
Prereq: Phys 212 or 213, and Math 275
Phys 412 Physical Instrumentation II (3 cr)
Methods and instruments used in experimental physics; electronic techniques; design problems in electronic measurement of physical quantities encountered in research. Two lec and one 3hr lab a wk.
Prereq: Phys 411
Phys IDJ425/J525 Relativity (3 cr) WSU Phys 425
Introduction to the Special and General Theories of Relativity. Principle of relativity, Poincare and Lorentz transformations and their consequences. Fourdimensional formulation of relativistic mechanics and electromagnetism. Principle of equivalence and the geometric theory of gravitation. Additional projects/assignments required for graduate credit.
Prereq for 425: Phys 305 and Senior standing
Prereq for 525: Admission to physics graduate program or Permission
Phys J428/J528 Numerical Methods (3 cr)
Phys 428 same as Math 428 and Engr 428. Systems of equations, root finding, error analysis, numerical solution to differential equations, interpolation and data fitting, numerical integration, related topics and applications. Additional projects and/or assignments required for graduate credit in Phys 528.
Prereq: Math 310
Phys J433/ID&WSJ533 Thermal and Statistical Physics I (3 cr) WSU Phys 533
Classical thermodynamics, entropy, thermodynamic potentials, kinetic theory, classical and quantum statistical mechanics, ensembles, partition functions, introduction to phase transitions. (Fall only)
Prereq: Phys 305
Phys J443/J543 Optics (3 cr)
Geometrical optics, wave optics and physical optics with emphasis on modern instrumentation and methods of measurement. Additional projects/assignments required for graduate credit.
Prereq for Phys 443: Phys 342
Prereq for Phys 543: Admission to Physics Graduate program or Permission
Phys J444/J544 Quantum Optics (3 cr)
Introduction to the physics of lasers, laser spectroscopy, nonlinear optical effects, and the interaction of radiation and matter. Additional projects/assignments required for graduate credit.
Prereq for Phys 444: Phys 212 or 213, Math 175, and Senior standing or Permission
Prereq for Phys 544: Admission to Physics Graduate program or Permission
Phys J464/J564 Materials Physics and Engineering (3 cr) (Phys J463/J563)
See MSE J464/J564.
Phys ID&WSJ465/ID&WSJ565 Particle and Nuclear Physics (3 cr) WSU Phys 465/565
Particle production and detection, properties and classification of particles, the quark model of hadrons, symmetries and conservation laws, interactions, grand unification, the strong interaction and nuclear forces, models for nuclear structure and reactions. Additional projects/assignments required for graduate credit.
Prereq for 465: Phys 305
Prereq for 565: Admission to physics graduate program or Permission
Phys ID&WSJ484/J584 Astrophysics (3 cr) WSU Astr 435
Celestial mechanics; planets and planetary systems; structure and evolution of stars and star systems; special and general relativity; cosmology. Additional projects/assignments required for graduate credit.
Prereq for Phys 484: Phys 305 or Math 275; or Permission
Prereq for Phys 584: Admission to physics graduate program or Permission
Phys 490 Research (16 cr, max 6)
Undergrad thesis.
Prereq: Junior standing in physics and Permission of department
Phys 499 (s) Directed Study (cr arr)
Phys 500 Master's Research and Thesis (cr arr)
Phys 501 (s) Seminar (cr arr)
Graded Pass/Fail.
Prereq: Permission
Phys 502 (s) Directed Study (cr arr)
Phys 503 (s) Workshop (cr arr)
Phys 504 (s) Special Topics (cr arr)
Phys R510 Radiation Shielding and Design Concepts (3 cr)
Prereq: Basic differential and integral calculus, and Permission
Phys 511 Techniques of Experimental Physics (3 cr)
Development of experimental techniques and skills in active research fields; foundation for any field of physics. Nine hrs of lab a wk.
Phys 512 Techniques of Experimental Physics (3 cr)
Development of experimental techniques and skills in active research fields; foundation for any field of physics. Nine hrs of lab a wk.
Phys R517 Radiation Dosimetry Instrumentation (3 cr)
Radiation detection methods; stats, instrumentation, and close determination; emphasis on radiation protection.
Phys ID&WS521 Advanced Mechanics (3 cr) WSU Phys 521
Classical mechanics; Lagrange's and Hamilton's principles, twobody problem, rigid body motion, special relativity, canonical transformation, HamiltonJacobi theory, small oscillations, and Lagrangian and Hamiltonian formulations for continuous systems and fields.
Prereq: Phys 322
Phys 525 Relativity (3 cr)
Phys 528 Numerical Methods (3 cr)
See Phys J428/J528.
Phys ID&WS533 Thermal and Statistical Physics I (3 cr) WSU Phys 533
See Phys J433/J533.
Phys ID&WS541 Electromagnetic Theory (3 cr) WSU Phys 541
Includes Maxwell's equations, electrostatics, magnetostatics, currents and their interactions, general theory of emission, propagation and absorption of electromagnetic waves, boundary value problems, relativistic formulation of electrodynamics.
Phys ID&WS542 Electromagnetic Theory (3 cr) WSU Phys 542
Includes Maxwell's equations, electrostatics, magnetostatics, currents and their interactions, general theory of emission, propagation and absorption of electromagnetic waves, boundary value problems, relativistic formulation of electrodynamics.
Phys 543 Optics (3 cr)
See Phys J443/J543.
Phys 544 Quantum Optics (3 cr)
See Phys J444/J544.
Phys ID&WS550 Quantum Mechanics (3 cr) WSU Phys 550
Physical basis; Schroedinger wave formulation, Heisenberg matrix formulation, transformation theory, approximation methods, radiation theory, theory of scattering; application to atomic systems.
Phys ID&WS551 Quantum Mechanics (3 cr) WSU Phys 551
Physical basis; Schroedinger wave formulation, Heisenberg matrix formulation, transformation theory, approximation methods, radiation theory, theory of scattering; application to atomic systems.
Phys 564 Materials Physics and Engineering (3 cr) (Phys 563)
See Phys J464/J564.
Phys ID&WS565 Particle and Nuclear Physics (3 cr)
See Phys J465/J565.
Phys ID&WS571 Mathematical Methods of Physics (3 cr) WSU Phys 571
Methods and problems.
Prereq: Phys 322 or Permission
Phys 584 Astrophysics (3 cr)
See Phys J484/J584.
Phys 600 Doctoral Research and Dissertation (cr arr)