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Module 2.1: How fast and at what angle should you walk in the rain
Module 3.1: What is a vector, what is a scalar?
Module 3.2: Cartesian and Polar coordinates
Module 3.3: Vector
A and -A
Module 3.4: Addition of vectors
Module 4.3: Subtraction of vectors
Module 4.2: Finding acceleration and position using the V vs T diagram
Module 4.1: Throw two objects at different times with different speeds.
Module 5.1: Instantaneous Acceleration: 1-Dimensional & 3-Dime 9 P
Module 6.1: Calculate how far and how high a kicked soccer ball
Module 6.2: An astronaut on the moon throws a stone
Module 7.1: Calculate tension in a rope given sag
Module 7.2: Explain weightlessness with respect to force
Module 8.1: Block sliding down a wedge
Module 8.2: A spring gun is used to accelerate small pucks acros
Module 8.5: Air Drag on a Small Oil Drop
Module 8.4: Resistive Forces: Air Drag, Liquids, Spherical Ob
Module 8.3: Resistive Forces: Air Drag, Liquids, Spherical Objec
Module 8.6: Speed as a Function of Time when Resistive Force is
Module 9.1: Find centripetal acceleration using the orbital period
Module 9.2: Finding Angular Frequency and Velocity
Module 10.1: A satellite is in orbit around the earth.
Module 10.2: Twirl a mass attached to a string in a circular path.
Module 11.1: Pulling a mass up a ramp
Module 11.2: Power: Average, Instantaneous Power, Negative
Module 12_03 | MIT 8.01SC Physics I: Classical Mechanics, F
Module 12_02 | MIT 8.01SC Physics I: Classical Mechanics
Module 12_01 | MIT 8.01SC Physics I: Classical Mechanics
Lec Module 12_04 | MIT 8.01SC Physics I: Classical Mechanics
Module 12_05 | MIT 8.01SC Physics I: Classical Mechanics
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