350 PHYS PS/SI2210. Physics for Scientists and Engineers I (5) F, 5 First semester of a two-semester sequence in calculus-based physics, primarily for students in science, math, computer science, and pre engineering. This semester covers topics in mechanics, including kinematics, Newton's laws, and the conservation laws of energy, linear momentum, and angular momentum. Also covered are topics in gravity, fluid mechanics, waves, and thermodynamics. Co-requisite: MATH SI 1210. Class meets five hours per week in lecture/discussion format. One 3-hour lab per week (PHYS 2219). PHYS 2215. Physics for Scientists and Engineers I Lab (1) F, 5 Co-requisite PHYS PS/SI2210. One 3-hour lab per week. Enrollment limited to transfer students. PHYS SI2220. Physics for Scientists and Engineers II (5) F, 5 Second semester of a two semester sequence in calculus-based physics. This semester covers topics in electricity and magnetism, electromagnetic waves, light and optics, relativity, and quantum, atomic, and nuclear physics. Prerequisite: PHYS PS/SI2210. Co-requisite: MATH SI 1220. Class meets five hours per week in lecture/discussion format. One 3-hour lab per week (PHYS 2229). PHYS 2225. Physics for Scientists and Engineers II Lab (1) F, 5 Co-requisite PHYS SI2220. One 3-hour lab per week. Enrollment limited to transfer students. PHYS 2300. Scientific Computing for Physical Systems (3) F An introduction to computer programming and fundamental numerical algorithms as used for problem solving and visualization in the natural sciences. Applications may include nonlinear dynamics, chaos, many-particle systems, and Monte Carlo techniques. Prerequisites: PHYS 2210, MATH 1200, and MATH 1210. PHYS 2600. Laboratory Safety (1) F, 5 An interdisciplinary, team-taught course that will be an overview of the major chemical, biological and physical safely issues related to science laboratories and field work. Class will meet once per week and will be taught in a lecture/demonstration format. PHYS 2710. Introductory Modern Physics (3) 5 Relativity, quantum effects, the hydrogen atom, many-electron atoms, molecular and solid-state bonding, quantum effect devices, nuclear structure, nuclear reactions and devices, elementary particles. Prerequisites: PHYS SI2220, MATH 1200, and MATH SI1220. PHYS 2800. Introductory Individual Research Problems (1-3) 5m, F, 5 Time and credit to be arranged. Intended for students working on a directed research project which includes physics/astronomy at the lower division level for one or more semesters. Prerequisite: Consent of instructor. Cross-listed with ASTR 2800. PHYS 2830. Introductory Readings in Physics/Astronomy (1-3) 5m, F, 5 Time and credit to be arranged. Intended for students working on a directed reading project which includes physics/astronomy at the lower division level for one or more semesters. Prerequisite: Consent of instructor. Cross-listed with ASTR 2830. PHYS 2890. Cooperative Work Experience (1-6) 5m, F, S Open to all students in the Physics Department who meet the minimum Cooperative Work Experience requirements of the department. Provides academic credit for on-the-job experience. Grade and amount of credit will be determined by the department. PHYS 2920. Short Courses, Workshops, Institutes and Special Programs (1-4) Consult the class schedule for the current offering under this number. The specific title and credit authorized will appear on the student transcript. PHYS 3160. Astrophysics (3) F Selected topics in astrophysics which may include telescopes, celestial mechanics, stellar structure and evolution, stellar pulsation, supernovae, black holes, interstellar medium, galactic structure, active galaxies, quasars, galactic clusters and super clusters, and cosmology. Prerequisite: PHYS SI2220 and MATH 1200. Cross-listed with ASTR 3160. PHYS 3180. Thermal Physics (3) 5 An introduction to thermodynamics and statistical mechanics. Topics include heat and work; ideal gases; equipartition of energy; entropy; the Boltzmann, Fermi-Dirac, and Bose-Einstein distributions; applications to heat engines, refrigeration, chemical equilibrium, phase transitions, blackbody radiation, and properties of solids. Prerequisite: PHYS SI2220, MATH 1200 and MATH SI1220. PHYS 3190. Applied Optics (3) F Geometrical and physical optics, lasers, lenses, optical instruments, interference, thin films, interferometry, holography, diffraction, gratings, crystal diffraction, polarization. Prerequisites: PHYS SI2220, MATH 1200 and MATH SI1220. Two lectures and one 3-hour lab a week. PHYS 3200. Solid State Physics (3) 5 (alternate years - even) Modern theory of the solid state, with emphasis on crystal structures, energy bands and fermi levels, conduction in metals and semiconductors, Hall effect, photoconductivity, junction diodes and transistors, field effect transistors, integrated circuit structure and fabrication. Co-requisite: PHYS 2710. PHYS 3300. Advanced Computational Physics (3) 5 (alternate years - even) This course extends the computational skills developed in PHYS 2300 to address a wider range of problems in modern physics. Students will explore the limits of computational methods and develop techniques suited to high-performance computing. Applications may be chosen from nonlinear dynamics, astrophysics, condensed matter physics, and quantum mechanics. Prerequisites: PHYS 2220 and PHYS 2300. PHYS 3410. Electronics for Scientists (4) F An introductory course in electronics for students in physics and other sciences. The course includes D.C. and a.c. circuit analysis using complex impedances and covers basic principles of semiconductor operation, transistors, analog and digital integrated circuits, analog-to-digital conversion techniques used in computer interfacing, and noise. Prerequisite: PHYS SI2220. Three lectures and one 3-hour lab a week. PHYS 3420. Data Acquisition and Analysis (3) 5 (alternate years - odd) Intermediate-level course in computer interfacing (data acquisition and analysis) for students in physics and all other sciences. Topics may include: data acquisition with industry-standard software packages, computerized test and measurement, analog-to-digital and digital-to-analog conversion, data acquisition electronics, electronic sensors (thermal sensors, light sensors, etc.), least squares curve fitting, fast Fourier transforms (FFT), Nyquist's theorem, noisy and weak signals. Prerequisite: PHYS SI2020 or SI2220, and MATH 1200. Two lectures and one 3-hour lab a week. Weber State University 2010-2011 Catalog