One
Dimensional Motion


Displacement,
velocity, and acceleration and their plots as a function time for
constant velocity and constant acceleration


Two
Dimensional Motion



Principle
of superposition vectors and coordinate systems


Newton's
Laws 


Statement
of the three laws and their application to a variety of situations
including circular motion


Work
and Energy 


Definition
of terms including kinetic and potential energy and conservation
of energy


Momentum 


Definition
and application of conservation of momentum to collision problems


Angular
Motion 


Comparison
of linear and angular motion with introduction to angular momentum
and torque


Simple
Harmonic Motion 


Definition
of the motion and derivation of the potential energy function


Wave
Motion 

Descriptive
terms, comparison with motion of a particle, and application to
musical instruments


Electric
Fields 


Calculation
of fields by vector addition and Gauss' Law


Potential
and Capacitance 


Potentials
and potential differences. Capacitance of various geometric figures


Circuits 


Resistance,
current, power. RC circuits


Magnetic
Fields 


Forces
on charged particles in external magnetic fields and calculation
of magnetic fields of various current carrying wire configurations


Induction 


Faraday's
Law, Inductors, and RL circuits


Geometric
Optics 


Mirrors,
Lenses and Optical Instruments


Physical
Optics 


Interference
and Diffraction

