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Solving Problems: College Physics I
Chapter 1: Motion in 1D
01.01 Uniform motion: time, distance, speed (10:36)
01.02 Uniform motion: average velocity & speed, distance & displacement (10:38)
01.03 Uniform motion: train encounter (13:26)
01.04 Uniform motion: train chase (9:23)
01.05 Uniform motion: train chase with delay (11:12)
01.06a Motion graphs: position and velocity (13:31)
01.06b Motion graphs: velocity and acceleration (12:23)
01.07 Accelerated motion: speeding dog (6:16)
01.08 Accelerated motion: landing plane (12:28)
01.09 Accelerated motion: accelerating swimmer (11:38)
01.10 Accelerated motion: highway merging (6:32)
01.11 Accelerated motion: train encounter with acceleration (12:42)
01.12 Accelerated motion: train chase with acceleration (11:02)
01.13 Free fall: maximum height (11:02)
01.14 Free fall: ball thrown upward 1 (4:14)
01.15 Free fall: ball drop (6:54)
01.16 Free fall: ball thrown upward 2 (6:35)
01.17 Free fall: ball drop race (11:14)
01.18 Free fall: ball thrown upward 3 (8:00)
01.19 Free fall: hammer drop on the Moon (8:14)
Chapter 2: Motion in 2D
02.01 Vectors: displacement in 2D (14:36)
02.02 Relative motion: running on the roof of a train (7:43)
02.03 Relative motion: driving next to another car (9:06)
02.04 Relative motion: swimming across a river (12:10)
02.05 Relative motion: flying in windy skies (14:25)
02.06 Vector decomposition: velocity and acceleration (11:18)
02.07 Projectile motion: diagrams and concepts (10:54)
02.08 Projectile motion: golf ball race (9:33)
02.09 Projectile motion: cat knocking things (6:40)
02.10 Projectile motion: range of cannon bullets (12:21)
02.11 Projectile motion: T-shirt throwing (7:53)
02.12 Projectile motion: fireworks (8:43)
02.13 Projectile motion: basketball (11:18)
02.14 Projectile motion: water slide (10:06)
02.15 Uniform circular motion: Moon around Earth (9:50)
02.16 Uniform circular motion: windmills (7:47)
02.17 Uniform circular motion: satellites (7:06)
Chapter 3: Forces and Newton's Laws
03.01 Force and acceleration: pushing a cart (9:07)
03.02 Force and acceleration: pushing a hockey puck (6:47)
03.03 Force and acceleration: landing on an aircraft carrier (9:20)
03.04 pushing blocks (12:50)
03.05 pulling blocks (11:56)
03.06 traffic light cable (5:32)
03.07 more traffic light cables (15:10)
03.08 inclined plane (8:32)
03.09 friction horizontal motion (11:35)
03.10 friction inclined plane (9:53)
03.11 friction linear motion (8:31)
03.12 friction circular motion (8:12)
03.13 Atwood machine (10:43)
03.14 inclined plane and friction (14:05)
03.15 moving a heavy box (10:28)
03.16 loop the loop (13:06)
03.17 weight in an elevator (7:50)
03.18 Review: Multiple Choice Dozen (28:32)
Chapter 4: Work, Conservation of energy & Linear Momentum
04.01 pulling a toy (8:35)
04.02 pushing a box (13:02)
04.03 braking car, dry and wet road (14:06)
04.04 roller-coaster (15:04)
04.05 sliding block and friction (14:24)
04.06 sliding block and spring (8:30)
04.07 motion and springs (5:36)
04.08 simple harmonic oscillator (14:53)
04.09 cannonball maximum height (6:34)
04.10 power accelerating car (7:17)
04.11 power human power (4:59)
04.12 power motor power (9:53)
04.13 momentum bumper cars (8:48)
04.14 momentum block collision (5:38)
04.15 momentum head-on collision (6:23)
04.16 momentum perfectly inelastic collision (6:04)
04.17 Review: Multiple Choice Dozen (55:29)
Chapter 5: Rotational Dynamics: Kinematics, Torque, and Angular Momentum
05.01 Rotational motion Simple gear train (12:08)
05.02 Rotational motion Bike wheel (13:53)
05.03 Rotational motion Hamster wheel (14:54)
05.04 Rotational motion Spinning wheel (13:38)
05.05 Angular momentum Neutron star (17:09)
05.06 Angular momentum Two-disc system (12:03)
05.07 Angular momentum Merry-go-round (17:21)
01.01 Uniform motion: time, distance, speed
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