Laboratory for PHYSICS 287.

Heat, kinetic theory, first and second laws of thermodynamics. 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 151/153 and MATH 132. (GenEd. PS)

Heat, kinetic theory, first and second laws of thermodynamics. 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 151/153 and MATH 132. (GenEd. PS)

Survey of thermodynamics. Boltzmann distribution, statistical interpretation of thermodynamics, Gibbsian ensembles and the method of Darwin, Fowler; quantum distributions and their applications, transport phenomena. Prerequisites: PHYSICS 424, 601, 606 (the latter may be taken concurrently).

Computational physics in a computer laboratory setting. Numerical simulations of a variety of physical systems taught concurrently with programming skills using languages such as C, Mathematica or Matlab in a UNIX environment. No prior computer experience required. Prerequisites: PHYSICS 181 or 151, and MATH 132. Corequisite: PHYSICS 182 or 152.

This course, intended for students with a background in hysical or life science, will cover the following physical principles that apply to bilogical molecules and cells: Bownian motion, low Reynolds-number environments, forces relevant to cells and molecules, chemical potentials and free energies, as well as the basics of polymer physics. These principles will be applied to enzymes as molecular machines, membranes, DNA, and RNA.

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences. Topics: electricity, magnetism, radiation, optics, relativity, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131/133 or equivalent. (Gen.Ed. PS)

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences. Topics: electricity, magnetism, radiation, optics, relativity, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131/133 or equivalent. (Gen.Ed. PS)

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences. Topics: electricity, magnetism, radiation, optics, relativity, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131/133 or equivalent. (Gen.Ed. PS)

Basic principles of physics illustrated by example and demonstration, whenever possible, from the biological sciences. Topics: electricity, magnetism, radiation, optics, relativity, quantum theory, atomic structure, nuclear physics. Prerequisite: PHYSICS 131/133 or equivalent. (Gen.Ed. PS)