Summary

Measurement: Standards and units, dimensional analysis
Motion in one dimension: Descriptions of motion, average and instantaneous velocities, motion with constant acceleration
Vectors: Vector components, adding vectors, multiplication of vectors
Motion in two dimensions: motion with constant acceleration, uniform circular motion, relative motion
Forces and laws of motion: Newton’s first, second and third laws and their applications
Motion with friction: Static and kinetic friction, motion with time- dependent acceleration
Work and energy: Work done by constant and variable forces, kinetic energy, work-energy theorem, power
Conservation of Energy: Conservative forces, potential energy
Linear momentum: Single particle and a system of particles, center of mass, conservation of linear momentum
Collisions: Impulse and momentum, elastic and plastic collisions
Rotational motion: rotation with constant angular acceleration, moment of inertia, kinetic energy of rotation, torque, combined rotational and translational motion
Angular momentum: Single particle and a system of particles, angular momentum and angular velocity, conservation of angular momentum
Equilibrium of rigid bodies: Conditions for equilibrium, center of gravity, examples
Oscillations: harmonic oscillations, energy considerations, the simple pendulum
Waves: Wave types, wave speed, superposition principle, standing waves, interference
Sources:

Halliday, Resnick and Krane, Physics Vol. 1, 4th edition, 1992 (QC21.2H355)
A. H. Cromer, Physics for the life Sciences (QC23.C917)