An atomic nucleus traveling with speed 5800 m/s collides elastically with a target particle, initially at rest, which has twice the mass of the first nucleus. The first ( moving) nucleus bounces off the target at an angle of 90° .At what angle does the target particle move after the collision? What is the final speed of the first nucleus ( the one that was initially moving)? What is the final speed of the target nucleus (the one that was initially at rest)?

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An atomic nucleus traveling with speed 5800 m/s
collides elastically with a target particle, initially at rest,
which has twice the mass of the first nucleus. The first (
moving) nucleus bounces off the target at an angle of
90° .At what angle does the target particle move after
the collision? What is the final speed of the first nucleus (
the one that was initially moving)? What is the final
speed of the target nucleus (the one that was initially at
rest)?
Transcribed Image Text:An atomic nucleus traveling with speed 5800 m/s collides elastically with a target particle, initially at rest, which has twice the mass of the first nucleus. The first ( moving) nucleus bounces off the target at an angle of 90° .At what angle does the target particle move after the collision? What is the final speed of the first nucleus ( the one that was initially moving)? What is the final speed of the target nucleus (the one that was initially at rest)?
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