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Transcript
Chapter 6 Momentum 1. MOMENTUM Momentum - inertia in motion Momentum = mass times velocity p mv Units – kgm/s or slft/s 2. IMPULSE Collisions involve forces (there is a v). Impulse = force times time I Ft Units – Ns or lbs 3. IMPULSE CHANGES MOMENTUM Impulse = change in momentum v F ma m t Ft mv I p Case 1: Increasing Momentum Follow through t I p F Examples: long cannons, driving a golf ball, can you think of others? Video – Tennis racquet and ball F t Case 2: Decreasing Momentum over a Long Time p I t F Examples: rolling with the punch, bungee jumping, can you think of others? Case 3: Decreasing Momentum over a Short Time p I F t Examples: boxing (leaning into punch), head-on collisions, can you think of others? 4. BOUNCING There is a greater impulse with bouncing. Example: Pelton Wheel 5. CONSERVATION OF MOMENTUM Example - Rifle and bullet Demo – Rocket balloon Video – Cannon recoil Video - Rocket scooter Consider two objects, 1 and 2, and assume that no external forces are acting on the system composed of these two particles. F1 t m1v1 f m1v1i Impulse applied to object 1 Impulse applied to object 2 Apply Newton’s Third Law Total impulse applied to system or F2 t m 2 v 2 f m 2 v 2i F1 F2 0 m1v1 f m1v1i m 2 v 2 f m 2 v 2i m1v1i m 2 v 2i m1v1 f m 2 v 2 f Internal forces cannot cause a change in momentum of the system. For conservation of momentum, the external forces must be zero. 6. COLLISIONS Collisions involve forces internal to colliding bodies. Elastic collisions - conserve energy and momentum Inelastic collisions - conserve momentum Totally inelastic collisions - conserve momentum and objects stick together Demo - Collisions on air track Demo - Momentum balls Demo - Small ball/large ball drop Demo - Funny Balls Video - Two Colliding Autos 20 m (60mph ) m ( 60 mph ) ( 21m )v 19(60mph) 21v 19 (60mph) 21 v 54.3mph v Remember that the car and the truck exert equal but oppositely directed forces upon each other. What about the drivers? The truck driver undergoes the same acceleration as the truck, that is (54.3 60)mph 5.7 mph t t Remember to use Newton’s Second Law to see the forces involved. The car driver undergoes the same acceleration as the car, that is 54.3mph ( 60mph) 114.3mph t t The ratio of these two accelerations is 114 .3 20 5 .7 7 MORE COMPLICATED COLLISIONS Vector Addition of Momentum Examples - Colliding cars and exploding bombs Video – Collisions in 2-D Video – Two different masses For the truck driver his mass times his acceleration gives ma F For the car driver his mass times his greater acceleration gives a F m
