De Anza College - Lana Sheridan
Lecture 1: Intro to the course
Lecture 2: Physics background, units, dimensional anaylsis
Lecture 3: Scaling units, measurements
Lecture 4: Significant figures, unit conversion, order of magnitude
Lecture 5: Order of magnitude, 1-D kinematics, quantities of motion
Lecture 6: Quantities of motion
Lecture 7: Graphs of quantities of motion
Lecture 8: Graphs of quantities of motion, how to solve problems
Lecture 9: How to solve problems, examples
Lecture 10: The kinematics equations
Lecture 11: Practice using the kinematics equations
Lecture 12: More practice using the kinematics equations
Lecture 13: Harder kinematics example, free fall
Lecture 14: Free fall, reaction time
Lecture 15: Vectors in 2 dimensions and trigonometery
Lecture 16: Vector addition
Lecture 17: 2D Motion, relative motion
Lecture 18: Relative motion
Lecture 19: Relative motion
Lecture 20: Projectiles, horizontal launch
Lecture 21: Projectiles, launched at an angle
Lecture 22: Max height of a projectile
Lecture 23: Time of flight and range of a projectile
Lecture 24: Trajectory of a projectile, projectile example
Lecture 25: Relative motion and projectiles
Lecture 26: Forces, net force, free body diagrams, Newton's 1st law
Lecture 27: Newton's 2nd law, mass and weight
Lecture 28: Newton's third law, gravity
Lecture 29: The normal force and elevators
Lecture 30: The normal force and inclines, tension
Lecture 31: Tension, more elevators, pulleys
Lecture 32: Objects moving together, introduce the Atwood Machine
Lecture 33: The Atwood machine
Lecture 34: Friction
Lecture 35: Friction, springs
Lecture 36: Springs, circular motion
Lecture 37: Circular motion acceleration and force
Lecture 38: More circular motion and force
Lecture 39: Banked turns, nonuniform circular motion
Lecture 40: List of topics covered