# Physics

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3 STUDENTS

Projectile motion, mechanics and electricity and magnetism. Solid understanding of algebra and a basic understanding of trigonometry necessary.

### Course Curriculum

 Introduction to motion Details 9:11 Introduction to motion (part 2) Details 9:38 Introduction to motion (part 3) Details 4:32 Projectile motion (part 1) Details 9:9 Projectile motion (part 2) Details 9:15 Projectile motion (part 3) Details 9:5 Projectile motion (part 4) Details 8:58 Projectile motion (part 5) Details 9:34 Projectile motion (part 6) Details 9:49 Projectile motion (part 7) Details 10:35 Projectile motion (part 8) Details 1:46 Projectile motion (part 9) Details 8:22 Projectile motion (part 10) Details 10:6 2 dimensional projectile motion (part 1) Details 9:20 2 dimensional projectile motion (part 2) Details 9:57 2-dimensional projectile motion (part 3) Details 9:14 2 dimensional projectile motion part 4 Details 9:6 2-dimensional projectile motion part 5 Details 4:7 Optimal angle for a projectile part 1 Details 5:50 Optimal angle for a projectile part 2 – Hangtime Details 4:12 Optimal angle for a projectile part 3 – Horizontal distance as a function of angle (and speed) Details 2:39 Optimal angle for a projectile part 4 Finding the optimal angle and distance with a bit of calculus Details 10:41 Newton’s First Law of Motion Details 9:28 Newton’s Second Law of Motion Details 9:49 Newton’s Third Law of Motion Details 9:20 Newton’s Laws Problems (part 1) Details 9:17 Newton’s Laws Examples (part 2) Details 9:23 Newton’s Laws Details 9:55 Newton’s Laws and vectors Details Force with Vectors Details Introduction to Tension Details 10:20 Tension (part 2) Details 10:19 Mass on Inclined Plane Details Introduction to friction Details Friction on an inclined plane Details A more complicated friction/inclined plane problem Details Tension in an accelerating system and pie in the face Details 9:29 Moving pulley problem (part 1) Details Moving pulley problem (part 2) Details Introduction to Momentum Details 9:18 Momentum: Ice skater throws a ball Details 6:1 2-dimensional momentum problem Details 10:36 2-dimensional momentum problem (part 2) Details 9:33 Introduction to work and energy Details 9:18 Work and Energy (part 2) Details 9:52 Conservation of Energy Details 10:7 Work/Energy problem with Friction Details 10:5 Introduction to mechanical advantage Details 10:2 Mechanical Advantage (part 2) Details 6:50 Mechanical Advantage (part 3) Details 10:35

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