Foundations of thermodynamics, fluids, waves, sound, and optics. Prerequisites: PHYSICS 151/153 or 181/183, MATH 131, or consent of instructor.

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Kinematics, vectors and scalars, Newton's laws of motion, work and energy, impulse and momentum. Conservation laws. Collisions, oscillations, rotational dynamics, waves and sound, fluids. Use of calculus in physics; problem-solving methods. Co-requisite: MATH 131. (GenEd. PS)

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.

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.

Introduction to physics of elementary particles; treating the development of the field, the particle spectrum, symmetries, quarks, experimental methods, an introduction to theories of the strong, electromagnetic and weak interaction, and recent developments. Prerequisites: PHYSICS 614, 606.

Nuclear properties and models, nuclear decays and reactions. Interactions of hadrons and leptons, internal symmetries and quantum numbers, quarks, unified interactions and gauge symmetry.