Intro Physics II

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences, with lab. Topics: electricity, magnetism, radiation, optics, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131 or equivalent. (Gen.Ed. PS)

Intro Physics II

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences, with lab. Topics: electricity, magnetism, radiation, optics, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131 or equivalent. (Gen.Ed. PS)

Quantum Field Theory I

Klein-Gordon and Dirac equations, formal scattering theory, field quantization, interacting fields, S-matrix, reduction formulae, perturbation theory and Feynman diagrams, renormalization, path integrals, and recent developments. Prerequisite: PHYSICS 615.

Big Bang To Black Hole

The great 20th-century revolutions in scientific thought: Einstein's Theory of Rel-ativity and Quantum Mechanics, at a level appropriate for non-science majors: Spacetime, length and time dilation, blackholes, big-bang cosmology; wave-particle duality, black hole evaporation. What constitutes a scientific theory. Prerequisite: Basic Math Skills (R1). (Gen.Ed. PS)

Intro Physics II

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences, with lab. Topics: electricity, magnetism, radiation, optics, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131 or equivalent. (Gen.Ed. PS)

General Physics II

Heat, kinetic theory, first and second laws of thermodynamics, with lab. Comprehensive study of electricity and magnetism from Coulomb's law to Ampere's law. Applications to basic circuits and ending with AC circuits. Prerequisites: PHYSICS 151 and MATH 132. (GenEd. PS)
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