How to read course descriptions

PHYSICS (PHYS)

102. Introductory Physics I (3) I II CDT Designed for liberal arts and life science majors with no calculus background. Survey of the basic fields of physics, with emphasis on applications to other fields and historical development. Those wishing to take this course as a lecture-laboratory course should register concurrently with PHYS 181. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

103. Introductory Physics II (3) I II CDT Continuation of 102. P, PHYS 102, lecture-lab combination requires co-registration with PHYS182. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

107. The Physics of Music (4) I CDT Sound production, musical instruments, frequency analysis, physics of hearing, psychological and physiological effects, harmony and scales, hall acoustics, electronic production and recording. 3R, 3L.

131. Introductory Physics with Calculus I (4) I Designed for liberal arts and life science majors with calculus background. Principles of kinematics, dynamics, wave motion and acoustics. P, MATH 125A, CR, MATH 125B. Lecture-lab combination requires co-registration with PHYS181. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

132. Introductory Physics with Calculus II (4) II Designed for liberal arts and life science majors with calculus background. Thermodynamics, electricity and magnetism, geometrical and physical optics, optical instruments, atomic and nuclear physics. P, PHYS 131. Lecture-lab combination requires co-registration with PHYS182. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

141. Introductory Mechanics (4) I II CDT Vector concepts; kinematics, static's and dynamics for point masses, particle systems and rigid bodies; conservation laws of energy, momentum, and angular momentum; fluid static's and dynamics. 4R, 2L. P, MATH 125A; CR, MATH 125B.

141H. Honors Introductory Mechanics (4) I II Kinematics and dynamics of point masses, particle systems and rigid bodies; conservation laws of energy momentum and angular momentum; fluid statics and dynamics. 4R, 2L. P, MATH 125A: CR, MATH 125B.

142. Introductory Optics and Thermodynamics (2-3) I II CDT Temperature scales, heat, thermodynamics, heat engines and kinetic theory; geometrical optics, lenses, mirrors and optical instruments; physical optics, diffraction, interference and wave theory. 2R (1R, 6L). P, PHYS 141; CR, MATH 223.

142H. Honors Introductory Optics and Thermodynamics (2-3) I II Temperature scales, heat, thermodynamics and heat engines; kinetic theory and statistics of many particle systems; geometrical optics, lenses, mirrors and optical instruments; physical optics, diffraction, interference and wave theory. 2R (3L). P, PHYS 141H or PHYS 141 with consent of instructor; CR, MATH 223. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

151. Introduction to Mechanics (4) I Kinematics and dynamics of particles and rigid bodies, conservation laws. 4R, 2L. P or CR, MATH 125A. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

152. Introduction to Thermodynamics and Relativity (4) II Continuation of 151. Fluid statics and dynamics, first and second laws of thermodynamics and special theory of relativity. 4R, 2L. P, PHYS 151; CR, MATH 125A. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252;

181. Introductory Laboratory I (1) I II Quantitative experiments in physics, both illustrative and exploratory. Designed to accompany PHYS 102 or 131; sections are established corresponding to each course. P PHYS 181; CR, PHYS 102 or PHYS 131. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

182. Introductory Laboratory II (1) I II Quantitative experiments in physics, both illustrative and exploratory. Designed to accompany PHYS 103 or 132; sections are established corresponding to each course. P, PHYS 181; CR, PHYS 103 or PHYS 132. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252

195. Colloquium

a. Creation of the Universe (1) I

199H. Honors Independent Study (2) [Rpt./] I II. Change units to: (1-4). Spring 99

201. How Things Work: Physics through Everyday Tools and Devices (3) I II A study of everyday devices, emphasizing the use of principles of physical science to understand their operation. Devices ranging from gears and pulleys to satellites and CAT scanners will be used to illustrate principles of mechanics, electromagnetism, thermodynamics, etc. 1D, 2L, 2R. P, completion of Tier 1 Natural Science courses. Tier 2 - Natural Sciences.

205. Computational Physics (3) I II S Introduction to numerical techniques for solving physics problems. Includes introduction to programming. Sample problems might include chaotic motion, nonlinear mechanics, particle trajectories, Monte Carlo simulation of phase transitions or stellar structure. P, PHYS 142 or PHYS 152. (Identical with ASTR 205).

241. Introductory Electricity and Magnetism (4) I II CDT Field concepts, electrostatics, magnetostatics, currents, electromagnetic phenomena and electromagnetic waves. 4R, 2L. P, PHYS 141, CR, MATH 223. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

241H. Honors Introductory Electricity and Magnetism (4) I II Electrostatic forces, fields, and potentials; magnetostatics; dynamics of charged particles in electric and magnetic fields; electrical currents and circuit analysis, electromagnetic phenomena associated with time-dependent electric and magnetic fields; Maxwell's equations in differential form and electromagnetic waves. Methods of vector calculus are used extensively. 3R, 3L. P, PHYS 141H or PHYS 141 with consent of instructor; CR, MATH 223. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252;

242. Introductory Relativity and Quantum Physics (3) I II CDT Introduction to 20th century concepts. Relativity and quantum theory will be emphasized. Other topics may be chosen from the following list: atomic and molecular structure, nuclear and elementary particle physics, quantum statistics and condensed matter. P, PHYS 141, PHYS 142, PHYS 241 or OPTI 226; MATH 223. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

242H. Honors Introductory Relativity and Quantum Physics (3) I II Special relativity, including Lorentz transformations, invariant intervals, relativistic dynamics, electricity and magnetism; old quantum theory; modern quantum mechanics including uncertainty principles, Schrodinger equation, simple one-dimensional problems, harmonic oscillatir, angular momentum, hydrogen atom and spin. P, PHYS 141H, PHYS 142H, PHYS 241H or PHYS 141, PHYS 142, PHYS 241 with consent of instructor; MATH 223.

251. Introduction to Electricity and Magnetism (4) I Laws of electric and magnetic fields, DC and AC circuits, Maxwell's equations. 4R, 2L. P, PHYS 152; CR, MATH 223. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

252. Introduction to Optics and Quantum Theory (4) II Continuation of 251. EM waves, physical and geometrical optics, and quantum theory. 4R, 2L. P, PHYS 152. Credit will be allowed for only one of the following sequences of courses; PHYS 102-103-181-182, 131-132-181-182, 141-142-241-242, 151-152-251-252.

299. Independent Study (1-4) [Rpt./]

299H. Honors Independent Study (1-3) [Rpt./] I

320. Optics (3) I II Electromagnetic waves; rays, interference, diffraction, scattering; applications to imaging systems, Fourier methods, holography, and crystal optics. P, PHYS 242 or PHYS 252; MATH 223.

321. Theoretical Mechanics I (3) I CDT Newton's laws; rectilinear and rotational motion; simple, damped and rotational oscillators; Lagrangian and Hamiltonian formulations; central forces and orbital motion; noninertial reference frames; rigid bodies; coupled oscillators. P, PHYS 241H or PHYS 251; P or CR, MATH 254. Change offerring to: I II.  Effective Spring 1999.

325. Thermodynamics (3) I II Approximately equal time spent on classical and statistical thermodynamics; basic laws of thermal equilibrium; heat engines; ideal and non-ideal gases; phase transitions; irreversible processes, kinetic theory and statistical thermodynamics. P, PHYS 242 or PHYS 252; MATH 223.

331. Electricity and Magnetism I (3) I Electromagnetic phenomena leading to Maxwell's equations; static and time-dependent solutions. P, PHYS 321 or MATH 442A.

332. Electricity and Magnetism II (3) II Continuation of 331. Transmission lines and wave guides; radiation theory, 4-vector formulation of special relativity. P, PHYS 331.

371. Quantum Theory (3) I II Introductory quantum mechanics; Schroedinger's Equation, one-dimensional problems, operators and matrices, three-dimensional problems, two particle problems, angular momentum, the hydrogen atom and spin. P, PHYS 242 or PHYS 252; PHYS 321, MATH 254.

381. Methods in Experimental Physics I (2) I II Designed to develop experimental skills and to demonstrate important concepts in classical and modern physics. 3L. P, two upper-division courses in physics, or co-registration. PHYS205 is recommended for students without programming experience. Writing-Emphasis Course*.

382. Methods of Experimental Physics II (2) I II Continuation of 381. Both 381 and 382 are offered each semester, but students are encouraged not to enroll simultaneously. Writing-Emphasis Course*.

396H. Honors Proseminar (3)

399. Independent Study (1-6) [Rpt./]

399H. Honors Independent Study (1-3) [Rpt./] I II

402. Medical Physics (3) I CDT Basic physics of the human body: the principles of mechanics, thermodynamics light and radiation, with emphasis on their role in biological systems and biomedical applications. P, PHYS 103 or PHYS 132; MATH 124 or equivalent. Writing-Emphasis Course*. (Identical with MCB 402). May be convened with PHYS 502.

422. Theoretical Mechanics II (3) II Advanced classical mechanics and modern dynamical systems. Topics include: canonical transformations, Hamilton-Jacobi theory, continuum mechanics, fluid dynamics and nonlinear systems. Special topics covered in the latter may include discrete maps, fractals, chaos, differential flows and solitons. P, PHYS 321, MATH 254.

430. Introduction to Biophysics (2) I CDT Concepts and experimental techniques of molecular biophysics; physical properties of biological macromolecules and cell organelles, optical interactions, macromolecular transitions, molecular mechanism or regulation. P, PHYS 103 or PHYS 132; CHEM 103A, CHEM103B. (Identical with MIC 430). May be convened with PHYS 530.

433. Physics Demonstration (1-3) II Introduction to teaching materials and laboratory demonstrations illustrating principles of classical and modern physics, with emphasis on inexpensive techniques and direct experience. P, two semesters of physics. May be convened with PHYS 533.

445A. Experimental Spectroscopy (1) Laboratory experiments with spectroscopic sources, spectrometers, instrument functions, detectors, light collection optics, spectral recording and analysis. Students select one to three sections from the five-week lectures listed as PHYS 445A through 445D. Credit can only be given once for each topic. P, PHYS 141, PHYS 142, PHYS 241 or PHYS 151, PHYS 152, PHYS 251 or consult department before enrolling. PHYS 445A is not prerequisite to PHYS 445B-C or D. May be convened with PHYS 545A.

445B. Experimental Acoustics (1)Laboratory experiments with sound sources, oscilloscopes, spectrum analyzers, sound level meters. Filters, musical instruments, recording, room acoustics. Students select one to three sections from the five-week lectures listed as PHYS 445A through 445D. Credit can only be given once for each topic. P, PHYS 141, PHYS 142, PHYS 241 or PHYS 151, PHYS 152, PHYS 251 or consult department before enrolling. PHYS 445A is not prerequisite to PHYS 445B-C or D. May be convened with PHYS 545B.

445C. Experimental Microscopy, Light Scattering and Optics of Small Particles (1) Laboratory experiments with microscopes and polarized scattered light to characterize small particles and surfaces, optical constants, lasers, remote sensing. Students select one to three sections from the five-week lectures listed as 445A through 445D. Credit can only be given once for each topic. P, PHYS 141, PHYS 142, PHYS 241 or PHYS 151, PHYS 152, PHYS 251 or consult department before enrolling. PHYS 445A is not prerequisite to PHYS 445B-C or D. May be convened with PHYS 545C.

445D. Experimental Geometrical and Physical Optics (1-3) Experimental measures of geometrical and optical properties of basic optical elements: lenses, prisms, gratings, optical fibers, etc. Students select one to three sections from the five-week lectures listed as PHYS 445A through 445D. Credit can only be given once for each topic. P, PHYS 141, PHYS 142, PHYS 241 or PHYS 151, PHYS 152, PHYS 251 or consult department before enrolling. PHYS 445A is not prerequisite to PHYS 445B-C or D.

450. Nuclear and Particle Physics (3) II Nuclear forces; nuclear phenomenology. Reactions and stability; nuclear models. Radiation and decay. The structure of nucleons; particle phenomenology; the standard model. P, PHYS 371, MATH 254. May be convened with PHYS 550.

460. Solid-State Physics (3) II Modern theory of crystalline solids. Topics include free electron theory of metals, crystals, x-ray diffraction, phonons, band theory, Fermi surfaces, semiconductors, magnetism and superconductivity. P, PHYS 325, PHYS 371. May be convened with PHYS 560.

472. Quantum Theory II (3) II Continuation of 371. Applications of quantum mechanics: fine structure of atomic spectra, addition of angular momentum, molecules, perturbation theory, transition rates, special topics in nuclear, elementary particle and condensed matter physics. P, PHYS 371. May be convened with PHYS 572.

473. Atomic and Molecular Spectroscopy for Experimentalists I (3) I Experimental techniques to generate, analyze and detect photons from X-ray to infrared; interpretation of spectra from gases, liquids, solids and biological macromolecules; light scattering, polarization. P, PHYS 242 or PHYS 252. (Identical with OPTI 473). May be convened with PHYS 573.

474. Atomic and Molecular Spectroscopy for Experimentalists II (3) II Continuation of 473. P, PHYS 473. (Identical with OPTI 474). May be convened with PHYS 574.

475. Methods of Mathematical Physics I (3) I Mathematical techniques and their physical applications. Vector and tensor analysis; differential equations, complex variable theory, Green's functions. P, PHYS 321, MATH 254; CR, PHYS 331. May be convened with PHYS 575.

476. Methods of Mathematical Physics II (3) II Continuation of 475. Special functions, transform theory, integral equations, variational techniques. P or CR, PHYS 322; MATH 254. May be convened with PHYS 576.

481. Methods of Experimental Physics III (2) I II Continuation of 382, with emphasis on individual work. 3L or 6L. P, PHYS382, 10 units of upper-division physics. Both PHYS 481 and 482 are offered each semester, but students are encouraged not to enroll simultaneously.

482. Methods of Experimental Physics IV (2) I II Continuation of 481, with heavy emphasis on individual work. Both PHYS 481 and 482 are offered each semester, but students are encouraged not to enroll simultaneously.

494. Practicum (3) [Rpt./]

498. Senior Capstone (1-3) I II

498H. Honors Thesis (3) [Rpt./ 2] I II

499. Independent Study (1-5) [Rpt./]

499H. Honors Independent Study (3) [Rpt./] I II

*Writing-Emphasis Courses. P, satisfaction of the upper-division writing-proficiency requirement (see "Writing-Emphasis Courses" in the Academic Policies and Graduation Requirements section of this manual).

502. Medical Physics (3) I For a description of course topics see PHYS 402. Graduate-level requirements include an original report demonstrating the ability to understand and apply mathematical and physical models related to biology or medicine. (Identical with MCB 502). May be convened with PHYS 402.

503. Quantum Optics and Lasers (3) I (Identical with OPTI 503, which is home).

511. Analytical Mechanics (3) I Laws of motion as developed by Newton, d'Alembert, Lagrange and Hamilton; dynamics of particles and rigid bodies. P, PHYS 410.

513. Topics in Advanced Mechanics (3) II Modern topics in classical mechanics, including canonical perturbation theory, invariant mappings, nonintegrated system stochastic behavior and applications to semi-classical quantum theory. P, PHYS 511.

515B.Electromagnetic Theory (3-3) I II Theory of classical electromagnetic phenomena, including time-dependent and static solutions of Maxwell's equations, radiation theory and relativistic electrodynamics. P, PHYS 332, PHYS 476.

528. Statistical Mechanics (3) II Physical statistics; the connection between the thermodynamic properties of a macroscopic system and the statistics of the fundamental components; Maxwell-Boltzmann, Fermi-Dirac, Einstein-Bose statistics. P, PHYS 476.

529. Information and the Foundation of Physics (3) I (Identical with OPTI 529, which is home).

530. Introduction to Biophysics (2) I For a description of course topics see PHYS 430. Graduate-level requirements include extra assignments. (Identical with MBIM 530). May be convened with PHYS 430.

531. Biophysical Theory (2) II Physical concepts and theories describing biomolecular structure and function, molecular evolution, limits to structure, symmetry, oligomer and virus structure, organelle structure and function. (Identical with MBIM 531).

533. Physics Demonstration (1-3) II For a description of course topics see PHYS 433. Graduate-level requirements include assisting with undergraduate lecture planning and demonstrations. May be convened with PHYS 433.

535. Advanced Atomic Physics (3) II Details of atomic structure; interactions of atoms with electromagnetic fields, electrons and ions; techniques for calculating unperturbed and perturbed energy levels, transition probabilities and atomic interaction cross sections. P, PHYS 511, PHYS 515B, PHYS 570B.

545A. Experimental Spectroscopy (1) For a description of course topics see PHYS 445A. Graduate-level requirements include an in-depth report on a topic selected in consultation with the instructor. May be convened with PHYS 445A.

545B. Experimental Acoustics (1) For a description of course topics see PHYS 445B. Graduate-level requirements include an in-depth report on a topic selected in consultation with the instructor. May be convened with PHYS 445B.

545C. Experimental Microscopy, Light Scattering and Optics of Small Particles (1) For a description of course topics see PHYS 445C. Graduate-level requirements include an in-depth report on a topic selected in consultation with the instructor. May be convened with PHYS 445C.

545D. Experimental Geometrical and Physical Optics (1) For a description of course topics see PHYS 445D. Graduate-level requirements include an in-depth report on a topic selected in consultation with the instructor. May be convened with PHYS 445D.

550. Introduction to Nuclear Physics (3) II For a description of course topics see PHYS 450. Graduate-level requirements include additional special topics to be determined by the instructor. May be convened with PHYS 450.

551. Nuclear Physics (3) I Theory of nuclear systems, including stability, decay, nuclear forces, scattering, reactions, structure and interaction with electromagnetic radiation. CR, PHYS 570A, PHYS 570B.

552. The Many-Body Problem in Nuclear Physics (3) [Rpt./ 1] II Fermi gas model, Green's functions, Wick's and Goldstone's theorems, theory of nuclear matter, microscopic theory of finite nuclei. P, PHYS 570B.

556. Electrodynamics of Conducting Fluids and Plasmas (3) II (Identical with PTYS 556, which is home).

560. Solid-State Physics (3) II For a description of course topics see PHYS 460. Graduate-level requirements include an in-depth paper on a topic in solid-state physics. May be convened with PHYS 460.

561. Physics of Semiconductors (3) I Elementary excitations in solids, phonons, electrons and holes, dielectric formalism of optical response, many-body effects in a Coulomb system. P, PHYS 570 or OPTI 507 recommended but not formally required, PHYS 460. (Identical with OPTI 561).

562. Theory of Condensed Matter (3) I Quantum theory of solids. Elementary excitations. Electron-phonon and electron-electron interactions. Spins and magnetism. Metal-insulator transitions. Basic concepts in superconductivity. P, PHYS 460 or PHYS 560; PHYS 475, PHYS 476.

563. Experimental Condensed Matter Physics (3) II Topics in experimental condensed matter physics; will include thin film theory, methods, characterization; high vacuum deposition technologies; evaporation sputtering, MBE, CVD, LPE, Ion Beam Deposition; epitaxial films; diffraction theory; x-ray, electron probes: RBS, XPS, Auger; magnetic films; super-conductivity.

570B. Quantum Mechanics (3-3) I II Principles of quantum mechanics; wave mechanics and matrix mechanics; applications to atomic structure and spectroscopy. P, PHYS 475; PHYS 476 recommended but not required.

570C. Intermediate Quantum Mechanics (3) II Formal quantum mechanics; scattering theory; relativistic wave equations; applications of DIRAC equation; angular momentum; symmetry; optical theorem; dispersion relations and path integral formulations.

571. General Relativity and Cosmology (3) I II (Identical with ASTR 571, which is home).

572. Quantum Theory II (3) II For a description of course topics see PHYS 472. Graduate-level requirements include additional homework problems. May be convened with PHYS 472.

573. Atomic and Molecular Spectroscopy for Experimentalists I (3) I For a description of course topics see PHYS 473. Graduate-level requirements include homework problem assignments at an advanced level. (Identical with OPTI 573). May be convened with PHYS 473.

574. Atomic and Molecular Spectroscopy for Experimentalists II (3) II For a description of course topics see PHYS 474. Continuation of 573. (Identical with OPTI 574). Graduate-level requirements include homework problem assignments at an advanced level. May be convened with PHYS 474.

575. Methods of Mathematical Physics I (3) I For a description of course topics see PHYS 475. Graduate-level requirements include advanced examinations, as determined by the instructor. May be convened with PHYS 475.

576. Methods of Mathematical Physics II (3) II For a description of course topics see PHYS 476. Graduate-level requirements include advanced examinations, as determined by the instructor. May be convened with PHYS 476.

579B. Advanced Relativistic Quantum Mechanics (3-3) I II Continuous groups; scattering theory; relativistic wave equations; quantum electrodynamics, Feynman diagrams, dispersion theory, renormalization; strong and weak interactions. P, PHYS 515B, PHYS 570B.

581. Elementary Particle Physics (3) I Production, interaction, and decay of mesons, baryons and leptons; high energy scattering of elementary particles; particle classification and symmetries; theoretical interpretation. P, PHYS 472.

582. High Energy Astrophysics (3) II (Identical with ASTR 582, which is home).

586. Techniques in Particle Physics (3) II Classification of elementary particles and their interactions with matter, relativistic kinematics, detectors, data acquisition techniques, statistical techniques, analysis of experiments, cosmic radiation and accelerators.

587. Nuclear Astrophysics (3) I
(Identical with ASTR 587, which is home).

589. Topics in Theoretical Astrophysics (3) [Rpt./ 1] I Current topics in theoretical astrophysics in depth, with emphasis on the methodology and techniques of the theorist and the cross-disciplinary nature of astrophysics theory. Example subjects are nuclear astrophysics, hydrodynamics, transient phenomena, planetary interiors and atmospheres, neutron stars, jets and the evolution of star clusters. (Identical with ASTR 589, PTYS 589).

591. Preceptorship (1-3) [Rpt./] I II

596. Seminar

a. Current Problems in Molecular Biophysics (1) I II [Rpt./] (Identical with MBIM 596A).

b. Methods in Computational Astrophysics (3) II (Identical with ASTR 596B, which is home).

e. Issues in Science and Technology Policy (3) II [Rpt./6 units] (Identical with OPTI 596E).

f. Topics in Cosmology (3) P, PHYS 476.

h. Philosophy of Physical Science (3) [Rpt./ 2] I II (Identical with PHIL 596H, which is home).

599. Independent Study (1-6) [Rpt./]

685. Graduate Physics Laboratory (3) [Rpt./ 2] II Introduction to modern research method s and experiments. Problems in low-temperature physics; solid-state, atomic, and nuclear spectroscopy; computer-based data acquisition and analysis; solar-energy physics; and others.

695. Colloquium

a. Current Problems in Physics (1) [Rpt./ 4 units] I II

697. Workshop

a. Problems in Computational Science (3) [Rpt./ 1] I II (Identical with MATH 697A, which is home).

b. Applied Mathematics Laboratory (3) II S (Identical with MATH 697B, which is home).

900. Research (1-4) [Rpt./]

909. Master's Report (1-9) [Rpt./] I II

910. Thesis (1-4) [Rpt./]

920. Dissertation (1-9) [Rpt./]

930. Supplementary Registration (1-9) [Rpt./]

 

Page last updated:  May 20, 2013


Arizona Board of Regents � All rights reserved.
General Catalog  http://catalog.arizona.edu/
The University of Arizona


Page last updated:  May 20, 2013


Arizona Board of Regents © All rights reserved.
General Catalog  http://catalog.arizona.edu/
The University of Arizona


Page last updated:  May 20, 2013


Arizona Board of Regents © All rights reserved.
General Catalog  http://catalog.arizona.edu/
The University of Arizona