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)

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)

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)

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)

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)

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)

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.

Introduction to the properties of solids. Emphasis on the key ideas governing the structural, electrical, and thermal properties of metals, insulators, and semiconductors.

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)

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)