A ball of mass m traveling at a speed of 0.80c has a perfectly inelastic collision with an identical ball at rest. If Newtonian physics were correct for these speeds, momentum conservation would tell us that a ball of mass 2m departs the collision with a speed of 0.40c. Let's do a relativistic collision analysis to determine the mass and speed of the ball after the collision.
A ball of mass m traveling at a speed of 0.80c has a perfectly inelastic collision with an identical ball at rest. If Newtonian physics were correct for these speeds, momentum conservation would tell us that a ball of mass 2m departs the collision with a speed of 0.40c. Let's do a relativistic collision analysis to determine the mass and speed of the ball after the collision.
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Transcribed Image Text:A ball of mass m traveling at a speed of 0.80c has
a perfectly inelastic collision with an identical ball at
rest. If Newtonian physics were correct for these
speeds, momentum conservation would tell us that
a ball of mass 2m departs the collision with a
speed of 0.40c. Let's do a relativistic collision
analysis to determine the mass and speed of the
ball after the collision.
Transcribed Image Text:Find M.
Express your answer in terms of c and m.
M=
Submit
VE ΑΣΦ
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