A Frictionless Collision Problem: The Final Speed of a Rock After Being Hit by a Hockey Puck

A hockey puck with mass M travels across a frictionless icy pond with an initial velocity of 3.0[ m/s]. It collides with a stationary rock that has mass 4M. The hockey puck bounces off of the rock, and leaves with a speed of 2[ m/s] in the exact opposite direction it was originally traveling. What is the approximate final speed of the rock?

Final answer:

Using the conservation of momentum, the final speed of the rock after a frictionless collision with a hockey puck is calculated to be approximately 1.25 m/s.

Explanation:

The final speed of the rock after being hit by a hockey puck can be determined using the conservation of momentum, which states that the total momentum of a system before collision is equal to the total momentum after collision when external forces are negligible (which they are in a frictionless environment). We are given that the initial velocity of the hockey puck is 3.0 m/s, the mass of the puck is M, and the mass of the rock is 4M. The puck bounces back with a speed of 2 m/s in the opposite direction.

Using the conservation of momentum:

  • Initial total momentum = Momentum of puck + Momentum of rock
  • (M)(3.0 m/s) + (4M)(0 m/s) = (M)(-2.0 m/s) + (4M)(v), where v is the final velocity of the rock
  • 3.0M = -2.0M + 4Mv
  • 4Mv = 5M
  • v = 5M / 4M
  • v = 1.25 m/s

The final speed of the rock is therefore approximately 1.25 m/s.

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