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Credit: 3 units<br />
Credit: 3 units<br />


Applied Physics 175 Materials Physics I
'''Applied Physics 175 Materials Physics I'''<br />
Fabrication, processing, characterization, and applications of selected semiconductor, dielectric, magnetic, metallic, superconducting and photonic materials
Fabrication, processing, characterization, and applications of selected semiconductor, dielectric, magnetic, metallic, superconducting and photonic materials<br />
Pre-requisite: Applied Physics 173
Pre-requisite: Applied Physics 173<br />
Class Hours:
Class Hours:<br />
Credit: 3 units
Credit: 3 units<br />


Applied Physics 176 Materials Physics II
'''Applied Physics 176 Materials Physics II'''<br />
Fabrication, processing, characterization, and applications of amorphous materials, liquid crystals, polymers, ceramic composites, and other important new materials
Fabrication, processing, characterization, and applications of amorphous materials, liquid crystals, polymers, ceramic composites, and other important new materials
Pre-requisite: Applied Physics 175
<br />
Class Hours:
Pre-requisite: Applied Physics 175<br />
Credit: 3 units
Class Hours:<br />
Credit: 3 units<br />


Applied Physics 181 Physical Electronics I
'''Applied Physics 181 Physical Electronics I'''<br />
Analysis of passive circuits; resonance and filters; semiconductor theory; noise theory; semiconductor devices and their applications; digital theory; logic and switching circuits; electronic instrumentation
Analysis of passive circuits; resonance and filters; semiconductor theory; noise theory; semiconductor devices and their applications; digital theory; logic and switching circuits; electronic instrumentation<br />
Pre-requisite: Physics 104
Pre-requisite: Physics 104<br />
Class Hours: 6
Class Hours: 6<br />
Credit: 4 units
Credit: 4 units<br />


Applied Physics 182 Physical Electronics II
'''Applied Physics 182 Physical Electronics II'''<br />
Integrated circuits; operational amplifiers and analog electronics; FET, MOSFET, CMOS, analog-digital conversion and multiplexing; computer hardware and interfacing; microprocessors and machine language programming; applications of microprocessors
Integrated circuits; operational amplifiers and analog electronics; FET, MOSFET, CMOS, analog-digital conversion and multiplexing; computer hardware and interfacing; microprocessors and machine language programming; applications of microprocessors<br />
Pre-requisite: Applied Physics 181
Pre-requisite: Applied Physics 181<br />
Class Hours: 6
Class Hours: 6<br />
Credit: 4 units
Credit: 4 units<br />


Applied Physics 183 Control Systems Approach to Physics Modeling
'''Applied Physics 183 Control Systems Approach to Physics Modeling'''<br />
Linear and nonlinear systems; analog and digital control systems; time-domain modeling; frequency-domain modeling; transient response, stability analysis, steady-state error; control system design
Linear and nonlinear systems; analog and digital control systems; time-domain modeling; frequency-domain modeling; transient response, stability analysis, steady-state error; control system design<br />
Pre-requisite: Physics 121
Pre-requisite: Physics 121<br />
Class Hours:
Class Hours:<br />
Credit: 3 units
Credit: 3 units<br />


Applied Physics 185 Instrumentation Physics I
'''Applied Physics 185 Instrumentation Physics I'''<br />
Sensors, transducers, and measurement techniques for various physical variables; signal conditioning, digitization and sampling; signal processing and reliability of data
Sensors, transducers, and measurement techniques for various physical variables; signal conditioning, digitization and sampling; signal processing and reliability of data<br />
Pre-requisite: Applied Physics 182, Physics 191
Pre-requisite: Applied Physics 182, Physics 191<br />
Class Hours: 6
Class Hours: 6<br />
Credit: 4 units
Credit: 4 units<br />


Applied Physics 186 Instrumentation Physics II
'''Applied Physics 186 Instrumentation Physics II'''<br />
Imaging systems and image processing; multidimensional detection techniques; pattern recognition
Imaging systems and image processing; multidimensional detection techniques; pattern recognition<br />
Pre-requisite: Physics 165, Applied Physics 185
Pre-requisite: Physics 165, Applied Physics 185<br />
Class Hours: 6
Class Hours: 6<br />
Credit: 4 units
Credit: 4 units<br />


Applied Physics 187 Photonics
'''Applied Physics 187 Photonics'''<br />
Design of Data Acquisition Systems (DAQ)/Digital Signal Processing (DSP)-based instrumentation systems; current topics and techniques for engineering optical instruments; non-destructive testing/measurement using optical methods; interferometry
Design of Data Acquisition Systems (DAQ)/Digital Signal Processing (DSP)-based instrumentation systems; current topics and techniques for engineering optical instruments; non-destructive testing/measurement using optical methods; interferometry<br />
Pre-requisite: Physics 166, Applied Physics 185
Pre-requisite: Physics 166, Applied Physics 185<br />
Co-requisite: Applied Physics 186
Co-requisite: Applied Physics 186<br />
Class Hours: 6
Class Hours: 6<br />
Credit: 4 units
Credit: 4 units<br />


Applied Physics 195 Special Topics
'''Applied Physics 195 Special Topics'''<br />
Selected topics of current interest in applied physics
Selected topics of current interest in applied physics<br />
Pre-requisite: COI
Pre-requisite: COI<br />
Class Hours:
Class Hours:<br />
Credit: 3 units
Credit: 3 units<br />
 
'''Applied Physics 199 Undergraduate Research'''<br />
Satisfactory-or-Unsatisfactory Basis<br />
Pre-requisite: COI<br />
Class Hours:<br />
Credit: 3 units<br />
 
'''Applied Physics 200 Undergraduate Thesis'''<br />
Credit: 3 units<br />


Applied Physics 199 Undergraduate Research
Satisfactory-or-Unsatisfactory Basis
Pre-requisite: COI
Class Hours:
Credit: 3 units


Applied Physics 200 Undergraduate Thesis
Credit: 3 units
Physics 101 Fundamental Physics I
Physics 101 Fundamental Physics I
Fundamentals of Newtonian Mechanics and Gravitational Theory
Fundamentals of Newtonian Mechanics and Gravitational Theory

Revision as of 09:20, 2 August 2012

[[General Physics Courses ]]

Physics 10 Physics and Astronomy for Pedestrians

Physics 71 Elementary Physics I
Mechanics of Particles, Rigid Bodies, and Fluids
Co-requisite: Math 53
Class Hours: 4 hrs/week
Credit: 4 units

Physics 71.1 Elementary Physics I Lab
Co-requisite: Physics 71
Class Hours: 2 hrs/week
Credit: 1 unit

Physics 72 Elementary Physics II
Electricity and Magnetism, Wave Phenomena, and Optics
Pre-requisite: Physics 71
Class Hours: 2 hrs/week
Credit: 1 unit

Physics 72.1 Elementary Physics Lab II
Pre-requisite: Physics 71.1
Class Hours: 2 hrs/week
Credit: 1 unit

Physics 73 Elementary Physics III
Thermal Physics, Relativity, and Quantum Mechanics
Pre-requisite: Physics 72
Class Hours: 2 hrs/week
Credit: 1 unit

Physics 73.1 Elementary Physics Lab III
Pre-requisite: Physics 72.1
Class Hours: 2 hrs/week
Credit: 1 unit


'''Undergraduate Courses'''


Applied Physics 155
Computer Methods in Physics I
Pre-requisite: Math 121.1

Applied Physics 156 Computer Methods in Physics II
Advanced computer programming methods; numerical modeling and simulations; discrete models; stochastic methods; current approaches in numerical modeling
Pre-requisite: Physics 155
Class Hours:
Credit: 4 units

Applied Physics 171 Introductory Crystallography
Properties and symmetries of crystals; x-ray diffraction; interpretation of diffraction patterns; methods of determining the crystal structure of various substances
Pre-requisite: Physics 105/equivalent
Class Hours: 5
Credit: 3 units

Applied Physics 173 Solid State Physics
Crystal structure of solids; lattice vibrations; band theory of solids; metals; semiconductor materials and devices; dielectric, magnetic, thermal, optical, and mechanical properties of solids, superconductors
Pre-requisite: Physics 105
Class Hours:
Credit: 3 units

Applied Physics 175 Materials Physics I
Fabrication, processing, characterization, and applications of selected semiconductor, dielectric, magnetic, metallic, superconducting and photonic materials
Pre-requisite: Applied Physics 173
Class Hours:
Credit: 3 units

Applied Physics 176 Materials Physics II
Fabrication, processing, characterization, and applications of amorphous materials, liquid crystals, polymers, ceramic composites, and other important new materials
Pre-requisite: Applied Physics 175
Class Hours:
Credit: 3 units

Applied Physics 181 Physical Electronics I
Analysis of passive circuits; resonance and filters; semiconductor theory; noise theory; semiconductor devices and their applications; digital theory; logic and switching circuits; electronic instrumentation
Pre-requisite: Physics 104
Class Hours: 6
Credit: 4 units

Applied Physics 182 Physical Electronics II
Integrated circuits; operational amplifiers and analog electronics; FET, MOSFET, CMOS, analog-digital conversion and multiplexing; computer hardware and interfacing; microprocessors and machine language programming; applications of microprocessors
Pre-requisite: Applied Physics 181
Class Hours: 6
Credit: 4 units

Applied Physics 183 Control Systems Approach to Physics Modeling
Linear and nonlinear systems; analog and digital control systems; time-domain modeling; frequency-domain modeling; transient response, stability analysis, steady-state error; control system design
Pre-requisite: Physics 121
Class Hours:
Credit: 3 units

Applied Physics 185 Instrumentation Physics I
Sensors, transducers, and measurement techniques for various physical variables; signal conditioning, digitization and sampling; signal processing and reliability of data
Pre-requisite: Applied Physics 182, Physics 191
Class Hours: 6
Credit: 4 units

Applied Physics 186 Instrumentation Physics II
Imaging systems and image processing; multidimensional detection techniques; pattern recognition
Pre-requisite: Physics 165, Applied Physics 185
Class Hours: 6
Credit: 4 units

Applied Physics 187 Photonics
Design of Data Acquisition Systems (DAQ)/Digital Signal Processing (DSP)-based instrumentation systems; current topics and techniques for engineering optical instruments; non-destructive testing/measurement using optical methods; interferometry
Pre-requisite: Physics 166, Applied Physics 185
Co-requisite: Applied Physics 186
Class Hours: 6
Credit: 4 units

Applied Physics 195 Special Topics
Selected topics of current interest in applied physics
Pre-requisite: COI
Class Hours:
Credit: 3 units

Applied Physics 199 Undergraduate Research
Satisfactory-or-Unsatisfactory Basis
Pre-requisite: COI
Class Hours:
Credit: 3 units

Applied Physics 200 Undergraduate Thesis
Credit: 3 units


Physics 101 Fundamental Physics I Fundamentals of Newtonian Mechanics and Gravitational Theory Co-requisite: Math 54/equivalent Class Hours: Credit: 4 units

Physics 101.1 Fundamental Physics Lab I Co-requisite: Physics 101 Class Hours: 3 hrs/week Credit: 1 unit

Physics 102 Fundamental Physics II Fundamentals of Electromagnetim and Special Relativity Pre-requisites: Math 54, Physics 101, 101.1 / Physics 71, 71.1 Co-requisite: Math 55 Class Hours: Credit: 4 units

Physics 102.1 Fundamental Physics Lab II Co-requisite: Physics 102 Class Hours: 3 hrs/week Credit: 1 unit

Physics 103 Fundamental Physics III Fundamentals of Waves, Optics, and Thermal Physics Pre-requisites: Math 55, Physics 102, 102.1 / Physics 72, 72.1 Co-requisite: Math 121.1 Class Hours: Credit: 4 units

Physics 103.1 Fundamental Physics Lab III Co-requisite: Physics 103 Class Hours: 3 hrs/week Credit: 1 unit

Physics 104 Modern Physics I The old quantum theory up to the Bohr-Sommerfeld model; Schroedinger's equation and elementary wave mechanics; one-electron atoms; multi-electron atoms; Pauli's exclusion principle Pre-requisites: Physcs 103, Physics 102, Math 121.1 Class Hours: 4 hrs/week Credit: 4 units

Physics 105	Modern Physics II

Introduction to the physics of x-rays, molecules, lasers, condensed matter, nuclei and fundamental particles Pre-requisite: Physics 104

Physics 111 Mathematical Physics I Abstract linear spaces and operators; matrix algebra; vector analysis; Cartesian tensors and elementary differential geometry Co-requisite: Math 55 Class Hours: Credit: 3 units

Physics 112 Mathematical Physics II Complex analysis; differential equations and special functions; Fourier series and transforms Pre-requisite: Physics 111 Co-requisite: Math 121.1 Class Hours: Credit: 3 units

Physics 113 Mathematical Physics III Sturn-Liouville theory; formed linear spaces, inner product space, Hilbert space and linear operators; integral equations and Green functions, functional derivatives; probability and statistics, random variables and random processes Pre-requisite: Physics 112 Class Hours: Credit: 3 units

Physics 114 Mathematical Physics IV Topology, topological spaces, metric spaces; differential forms; introduction to group theory including finite and continuous groups, group representations, Lie groups Pre-requisite: Physics 113 Class Hours: Credit: 3 units

Physics 121 Theoretical Mechanics I Principles of Newtonian mechanics, the Newtonian theory of gravitation, impulse and collisions, constrained motion, Lagrangian dynamics, central-force motion, linear and nonlinear oscillations Pre-requisite: Physics 103 Co-requisite: Physics 113 Class Hours: Credit: 3 units

Physics 122 Theoretical Mechanics II Motion in non-inertial frames, relativistic mechanics, mechanics of rigid-bodies, systems of small coupled oscillations, vibrating strings and one-dimensional waves, introduction to Pre-requisite: Physics 121 Class Hours: Credit: 3 units

Physics 131 Electromagnetic Theory I Electrostatics in a vacuum, electrostatics in dielectric media, boundary value methods in electrostatics, electric currents, conducting media, magnetostatics in a vacuum, macroscopic and microscopic magnetism, Faraday’s law of electromagnetic induction Pre-requisite: Physics 103 Co-requisite: Physics 113 Class Hours: Credit: 3 units

Physics 132 Electromagnetic Theory II Maxwell’s equations, special relativity and electrodynamics, motion in static electromagnetic field, the Lienard-Wiechert fields, electromagnetic radiating systems, propagation of electromagnetic waves, wave guides and cavity resonators, classical electron Pre-requisite: Physics 131 Class Hours: Credit: 3 units

Physics 135 Introductory Plasma Physics Fundamental processes of ionization and deionization, basic properties of plasmas, particle or its in electromagnetic fields, continuum model of a plasma, waves in cold plasmas, thermonuclear reactions and plasma devices Pre-requisite: Physics 132 Class Hours: Credit: 3 units

Physics 141 Quantum Physics I Wave packets and uncertainty principle, the Schroedinger equation, simple one-dimensional systems, three-dimensional systems, quantum particle in an external field, the postulates and mathematical Pre-requisite: Physics 104, Physics 112 Class Hours: Credit: 3 units

Physics 142 Quantum Physics II Spin, identical particles, WKB approximation, time-dependent perturbation theory, canonical quantization, introduction to path integrals Pre-requisite: Physics 141, Physics 113 Class Hours: Credit: 3 units

Physics 151 Statistical Physics I Review of thermodynamics, basic statistical concepts, basic methods of statistical mechanics, canonical and grand canonical ensembles some applications of statistical mechanics, quantum statistics of ideal gases Pre-requisite: Physics 121 Class Hours: Credit: 3 units

Physics 152 Statistical Physics II Applications of quantum statistics of ideal gases, elementary kinetic theory of transport processes, Boltzmann equation in the absence of collision, path-integral formulation; general Boltzmann equation; transition probabilities, master equation, Fokker-Planck equation and its applications Pre-requisite: Physics 151 Class Hours: Credit: 3 units

Physics 161 Introductory Laser Physics Intensity equation for light propagation in a medium, Einstein’s theory of light-matter interaction, gain saturation and dispersive effects in lasers, laser amplification and oscillation, optical resonators and optical modes, general properties and applications of lasers Pre-requisite: Physics 104 Class Hours: Credit: 3 units

Physics 165 Optical Physics I Wave theory; geometrical optics; polarization; interference and diffraction Pre-requisite: Physics 131 Class Hours: Credit: 3 units

Physics 166 Optical Physics II Coherence theory; Fourier optics and imaging; basic microscopy; spectroscopy; nonlinear optics Pre-requisite: Physics 165 Class Hours: Credit: 3 units

Physics 170 Condensed Matter Crystal structure; mechanical, thermal, electric, and magnetic properties of solids; hard theory of solids; metals, insulators, and semiconductors; lattice vibrations; imperfections; superconductivity and superfluidity Pre-requisite: Physics 105, Physics 142 Class Hours: Credit: 3 units

Physics 180 Nuclei & Particles Basic nuclear properties and classification of fundamental particles; symmetries and invariance principles; strong, weak, and electromagnetic interactions; SU (3), quarks, and other selected topics Pre-requisite: Physics 142 Class Hours: Credit: 3 units

Physics 191 Experimental Physics I Selected standard experiments in modern physics with accompanying lectures on basic experimental techniques and data analysis as well as practical work in technical drawing and machine shop operations Pre-requisite: Applied Physics 181 Class Hours: 10 hrs/week Credit: 4 units

Physics 192 Experimental Physics II Selected advanced experiments and projects in modern physics with accompanying lectures on advanced experimental techniques, experimental design, and instrumentation Pre-requisite: Physics 191 Class Hours: 7 hrs/week Credit: 3 units

Physics 196 Undergraduate Seminar Pre-requisite: Senior Standing Credit: 1 unit

Physics 199 Undergraduate Research Satisfactory-or-Unsatisfactory Basis Pre-requisite: COI Class Hours: Credit: 3 units

Physics 200 Undergraduate Thesis Credit: 3 units