8441

Third laboratory course in a calculus-based four-semester sequence. Core topics include experiments in sound, waves, electrical oscillations, thermodynamics, geometrical optics, and physical optics.

An overview of physics. Content is taught at a conceptual level using basic math such as ratios, square roots, scientific notation, graph interpretation, slope and simple algebra. Topics include mechanics, properties of matter, heat, sound, electricity, magnetism, light, and nuclear physics.

Second laboratory course in an algebra-based two semester sequence. Core topics include experiments in electricity, magnetism, electric circuits, and optics.

Last laboratory course in a calculus-based four-semester sequence. Core topics include experiments in modern physics, including the Michelson interferometer, photoelectric effect, longitudinal laser modes, Zeeman effect, and atomic spectra.

This is the fourth course in a calculus-based four-semester sequence. Core modern physics topics include special relativity, quantum mechanics, atomic physics, and solid state physics.

Third laboratory course in a calculus-based four-semester sequence. Core topics include experiments in sound, waves, electrical oscillations, thermodynamics, geometrical optics, and physical optics.

Third laboratory course in a calculus-based four-semester sequence. Core topics include experiments in sound, waves, electrical oscillations, thermodynamics, geometrical optics, and physical optics.

This is the third course in a calculus-based four-semester sequence. Core topics include mechanical, sound, and light waves; geometrical and physical optics; and thermodynamics.

This is the third course in a calculus-based four-semester sequence. Core topics include mechanical, sound, and light waves; geometrical and physical optics; and thermodynamics.

Last laboratory course in a calculus-based four-semester sequence. Core topics include experiments in modern physics, including the Michelson interferometer, photoelectric effect, longitudinal laser modes, Zeeman effect, and atomic spectra.