A 0.50-kg object travelling at +1.00 m/s collides with a 1.50-kg object that is stationary. After the collision the 0.50-kg object is travelling at -0.130 m/s. Assume the collision occurs on a horizontal frictionless surface. What is the final velocity on the 1.5-kg object? Determine the impulses on each to show they follow Newton’s 3rd law. Determine the change in kinetic energy.
A 0.50-kg object travelling at +1.00 m/s collides with a 1.50-kg object that is stationary. After the collision the 0.50-kg object is travelling at -0.130 m/s. Assume the collision occurs on a horizontal frictionless surface. What is the final velocity on the 1.5-kg object? Determine the impulses on each to show they follow Newton’s 3rd law. Determine the change in kinetic energy.
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- A 0.50-kg object travelling at +1.00 m/s collides with a 1.50-kg object that is stationary. After the collision the 0.50-kg object is travelling at -0.130 m/s. Assume the collision occurs on a horizontal frictionless surface.
- What is the final velocity on the 1.5-kg object?
- Determine the impulses on each to show they follow Newton’s 3rd law.
- Determine the change in kinetic energy.
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