Group problem solving, data acquisition and analysis, and application of physics to real life scenarios in the framework of classical mechanics and thermodynamics. The course satisfies the requirements for pre-health …
Second semester of the introductory physics sequence recommended for prospective physics majors. Topics include electricity, magnetism, circuits and optics. Emphasis is on building foundations for future studies in physics. Three …
Group problem solving, data acquisition and analysis, and application of physics to real life scenarios in the framework of electricity and magnetism. The course is geared towards STEM majors and …
Applications of physical principles to a diverse set of phenomena: order of magnitude estimates, dimensional analysis, material science and engineering, astrophysics, aeronautics and space flight, communications technology, meteorology, sound & …
The course begins by covering the fundamentals of analog and digital electronics, including the use of transistors, FET's, operational amplifiers, TTL, and CMOS integrated circuits. Following this students conduct projects …
Approximately five experiments drawn from the major fields of physics. Introduces precision apparatus, experimental techniques, and methods of evaluating experimental results. Outside report preparation is required. Six laboratory hours. Prerequisite: …
Statics and dynamics of particles and rigid bodies treated with extensive use of vector calculus; includes the Lagrangian formulation of mechanics. Prerequisites: MATH 2310 or equivalent, MATH 3250 or equivalent, …
Includes temperature and the laws of thermodynamics; introductory treatments of kinetic theory and statistical mechanics; and applications of Boltzmann, Bose-Einstein, and Fermi-Dirac distributions. Recommended Prerequisites: MATH 3250, PHYS 2620, and …
Includes Maxwell's equations; electromagnetic waves and their interaction with matter; interference, diffraction, polarization; waveguides; and antennas. Prerequisite: PHYS 3420.
Surveys computational methods for problem solving in the physical sciences. Topics include numerical precision and efficiency, solutions of differential equations, optimization problems, Monte Carlo simulation, statistical methods, and data analytics. …