Calculating Rebound Height for a Ball Colliding with Steel Plate

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Homework Help Overview

The discussion revolves around calculating the rebound height of a ball after it collides with a steel plate, given a coefficient of restitution of 0.95. The original poster seeks assistance in determining the rebound height from an initial drop height.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of the coefficient of restitution and its relation to the velocities involved in the collision. There is a suggestion to consider the definition of the coefficient rather than focusing solely on equations.

Discussion Status

The conversation includes attempts to clarify the problem and explore the necessary variables, such as impact velocity and rebound velocity. Some participants offer guidance on how to approach the problem despite the lack of explicit numerical values.

Contextual Notes

Participants note the absence of specific velocity values in the problem statement, which raises questions about how to proceed with the calculations. There is an emphasis on the idea that unknowns can be used in the analysis.

Arlan
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Question: The coefficient of restitution for ball colliding with steel is 0.95. If ball is dropped from height h sub o above steel plate, to what height will the ball rebound?

Please help me with this one, Is there a formula for this? all I know is e equals velocity of the first object subtract to velocity of the second object divided by the velocity of the second object subtract to velocity of the first object.
 
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So apply the formula you know to the situation. What are the velocities here?
 
I believe this is a thought question with no equation required. You are over complicating it. Lookup:the definition of "Coefficient of Restitution" and I think you will realize the quick answer.
 
haruspex said:
So apply the formula you know to the situation. What are the velocities here?
there are no velocities given, but thanks
 
JBA said:
I believe this is a thought question with no equation required. You are over complicating it. Lookup:the definition of "Coefficient of Restitution" and I think you will realize the quick answer.
I'll do that. thanks for helping
 
Arlan said:
there are no velocities given, but thanks
You must not let that block you. Many questions appear not to provide enough information, but if you simply plug in unknowns as necessary you may find they later cancel.
In the present case, however, you are effectively given the velocities. You know the height from which the ball is released, so you can find the impact velocity. You also know the velocity of the ground before and after, so you can use the restitution factor to find the rebound velocity of the ball. Etc.
 
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haruspex said:
You must not let that block you. Many questions appear not to provide enough information, but if you simply plug in unknowns as necessary you may find they later cancel.
In the present case, however, you are effectively given the velocities. You know the height from which the ball is released, so you can find the impact velocity. You also know the velocity of the ground before and after, so you can use the restitution factor to find the rebound velocity of the ball. Etc.
okay. I'll keep that in mind. thanks
 

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