Syllabus
I. PRELIMINARIES
- what is classical mechanics?
- scientific measurement
- units of measurement
- scaling
II. KINEMATICS
1. One-Dimensional Motion
- average speed
- average and instantaneous velocity
- average and instantaneous acceleration
- uniformly accelerated motion
- the acceleration of gravity
2. Motion in Two and Three Dimensions
- vectors
- position, velocity, and acceleration vectors
- constant acceleration and projectile motion
- uniform circular motion
III. DYNAMICS -- NEWTON'S LAWS OF MOTION
1. Forces and Motion
- what is force?
- inertia, mass, and Newton's first law of motion
- Newton's second law of motion
- the force of gravity (weight)
- superposition of forces
- Newton's third law of motion
- the normal force
- one-dimensional applications
- the "fundamental" forces in nature
2. Applications of Newton's Laws
- friction
- circular motion re-visited
- oscillatory motion and simple harmonic motion
- Newton's law of universal gravitation
IV. WORK AND ENERGY
- work
- kinetic energy and the work-energy theorem
- conservative forces
- potential energy
- conservation of mechanical energy
- potential energy diagrams
- power
V. LINEAR MOMENTUM
- forces and momentum
- conservation of momentum
- collisions in one dimension
- collisions in two dimensions
- center of mass
VI. ROTATIONAL MOTION
- angular displacement, velocity and acceleration
- rotational kinematics: constant angular acceleration
- rotational energy
- moments of inertia
- torque and angular acceleration
- conservation of angular momentum
- static equilibrium
VII. WAVES
- longitudinal and transverse waves
- superposition and interference
- Doppler effect
- standing waves
- resonance
VIII. FLUIDS
- density and pressure
- the depth dependence of pressure
- Pascal's principle
- Archimedes' principle
- the equation of continuity
- Bernoulli's equation