In attempting to pass the puck to a teammate, a hockey player gives it an initia
ID: 2252990 • Letter: I
Question
In attempting to pass the puck to a teammate, a hockey player gives it an initial speed of 3.0 m/s, but because of the kinetic friction between the puck and ice, the puck travels only half the distance between the players before coming to rest. Assuming that the ice In attempting to pass the puck to a teammate, a hockey player gives it an initial speed of 3.0 m/s, but because of the kinetic friction between the puck and ice, the puck travels only half the distance between the players before coming to rest. Assuming that the ice In attempting to pass the puck to a teammate, a hockey player gives it an initial speed of 3.0 m/s, but because of the kinetic friction between the puck and ice, the puck travels only half the distance between the players before coming to rest. Assuming that the ice In attempting to pass the puck to a teammate, a hockey player gives it an initial speed of 3.0 m/s, but because of the kinetic friction between the puck and ice, the puck travels only half the distance between the players before coming to rest. Assuming that the iceExplanation / Answer
The puck will need to do twice as much work against friction in order to travel twice as far. That means the initial kinetic energy, (1/2)MV^2, will have to be twice as high.
Since M will be the same, V must increase by a factor sqrt 2 = 1.414
The new V =4.242 m/s
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