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)

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)

Waves, the production and perception of sound, the physical basis of pitch, timbre, resonance, dissonance, and musical scales. Concepts applied to orchestral instruments and auditorium acoustics. Fundamentals of electronic sound reproduction and recording. Elementary algebra and powers of ten notation used. (Gen.Ed. PS)

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)

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)

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)

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)