PHYS 201 INTRO TO NON-CALCULUS BASED PHYSICS I
Empirical analysis of experimental data; kinematics and dynamics of a particle; energy, linear momentum, and gravitation.
Credits:
1
-
3
PHYS 202 INTRO TO NON-CALCULUS PHYSICS II
Static and dynamic electricity; electric and magnetic fields; electromagnetic radiation. Lectures and laboratory.
Credits:
2
-
3
PHYS 231 INTRO TO CALCULUS BASED PHYSIC I
Empirical analysis of experimental data; kinematics and dynamics of a particle; energy, linear momentum, and gravitation. Lecture and laboratory.
Credits:
1
-
3
PHYS 232 INTRODUCTORY CALCULUS-BASED PHYSICS II
One- and two-dimensional waves; geometrical and physical optics; electric field and potential; steady state and transient DC circuits; magnetic field, Faraday's Law, electromagnetic waves. Lectures and laboratory.
Credits:
2
-
3
PHYS 233 CALC-BASED PHYS I DISCUSSION
Calculus-based derivations and applications for the physics I topics of mechanics and thermodynamics.
Credits:
1
PHYS 234 CALC-BASED PHYSICS II DISCUSS.
Calculus derivations and applications of physics principles related to electromagnetism and light.
Credits:
1
PHYS 295 INDEPENDENT STUDY
Credits:
1
-
3
