Chapter 2 Review by Travis Hendrock

Chapter 2 Review by Travis Hendrock https://padlet.com/hendrockt_21/kqra4t7c3ngj Made for Chapter 2 en-us 2016-11-01 15:52:55 UTC 2016-11-03 15:57:04 UTC hello@padlet.com Terminal Velocity hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134527728 The constant velocity of a falling object when the force of air resistance is equal in magnitude and opposite in direction to the force of gravity.]]> 2016-11-01 15:54:33 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134527728 Free Fall hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134528276 The motion of a body when only the force of gravity is acting on the body.]]> 2016-11-01 15:56:03 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134528276 Projectile Motion hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134528453 The curved path that an object follows when thrown, launched or otherwise projected near the surface of Earth]]> 2016-11-01 15:56:32 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134528453 Inertia hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134528814 The tendency of an object to resist being moved or, if the object is moving, to resist a change in speed or direction until an outside force acts on the object.]]> 2016-11-01 15:57:34 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134528814 Equation for velocity hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134530118 △v = g x t]]> 2016-11-01 16:00:55 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134530118 Acceleration due to gravity hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134531011 9.8]]> 2016-11-01 16:03:30 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134531011 Air resistance hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134531410 It depends on size, shape, and speed of the object in motion.]]> 2016-11-01 16:04:49 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134531410 Weightlessness in space hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134532379 There is no strong gravitational pull]]> 2016-11-01 16:07:47 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134532379 Why objects stop accelerating hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134533032 The force of air resistance is equal to the downward force of gravity, 0 N]]> 2016-11-01 16:09:49 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134533032 How an orbit is formed hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134534127 The object has to be travelling around another object with centripetal force.]]> 2016-11-01 16:12:31 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134534127 Newton's 1st law hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134818494 Object in motion stays in motion, object at rest stays at rest. Also known as the Law of Intertia]]> 2016-11-02 15:32:52 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134818494 Newton's 2nd law hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134819731 The acceleration of an object depends on the mass of the object and the amount of force applied]]> 2016-11-02 15:35:25 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134819731 Newton's 3rd law hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134822362 Whenever one object exerts a force on a second object, the second object exerts an equal and opposite force on the first]]> 2016-11-02 15:40:48 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134822362 a = F/m hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134823192 2016-11-02 15:42:42 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134823192 F = m x a hendrockt_21 https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134823581 2016-11-02 15:43:36 UTC https://padlet.com/hendrockt_21/kqra4t7c3ngj/wish/134823581