200
An introductory algebra-based physics course, with emphasis on the principles of physics, for health sciences majors. Topics include classical mechanics, oscillatory (wave) motion, sound, and the behavior of solids and fluids. Three hours lecture and one two-hour laboratory per week.
An introductory algebra-based physics course, with emphasis on the principles of physics, for health sciences majors. Topics include classical mechanics, oscillatory (wave) motion, sound, and the behavior of solids and fluids. Three hours lecture and one two-hour laboratory per week.
Physics II: Thermodynamics, Electricity and Magnetism, Optics, and Modern Physics. A continuation of
PHYS 201. Topics include thermal physics, electrical and magnetic phenomena, simple electrical circuits, optics, and quantum physics. Three hours lecture and one two-hour laboratory per week.
A continuation of
PHYS 201. Topics include thermal physics, electrical and magnetic phenomena, simple electrical circuits, optics, and quantum physics. Three hours lecture and one two-hour laboratory per week.
An introductory calculus-based physics course for physics, chemistry, and engineering majors. Topics include statics, kinematics, and dynamics of particles and rigid bodies, work and energy, conservation of energy and momentum (linear and angular), harmonic motion. Three hours lecture and one two-hour laboratory per week.
An introductory calculus-based physics course for physics, chemistry, and engineering majors. Topics include statics, kinematics, and dynamics of particles and rigid bodies, work and energy, conservation of energy and momentum (linear and angular), harmonic motion. Three hours lecture and one two-hour laboratory per week.
Physics Using Calculus II: Electricity and Magnetism. A continuation of
PHYS 205. Topics include electrostatics and Gauss' Law; electric potential, capacitance, and Kirchhoff's Laws for analysis of simple DC circuits; magnetostatics and Ampère's Law; electromagnetic induction, simple AC circuits, and transformers. Three hours lecture and one two-hour laboratory per week.
A continuation of
PHYS 205. Topics include electrostatics and Gauss' Law; electric potential, capacitance, and Kirchhoff's Laws for analysis of simple DC circuits; magnetostatics and Ampère's Law; electromagnetic induction, simple AC circuits, and transformers. Three hours lecture and one two-hour laboratory per week.