What are the key steps for solving a tennis ball impulse problem?

AI Thread Summary
To solve the tennis ball impulse problem, it is essential to break the velocity into its horizontal and vertical components. The impulse-momentum theorem can be applied, where the impulse is calculated as the change in momentum, represented by the equation m(v_f - v_i). Since the ball rebounds at the same speed and angle, the vertical component of the velocity remains unchanged if friction is negligible. Additionally, the user inquires about the possibility of inserting a diagram for better clarity. Understanding these concepts is crucial for accurately determining the impulse experienced by the ball.
jacy
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hi,
I am trying to solve this problem.

A tennis ball of mass m=0.060kg and speed v= 25m/s strikes a wall at a 45 degree angle and rebounds with the same speed at 45 degree. What is the impulse given to the ball?

Do i need to break velocity into its components. Please suggest me a hint, thanks.
 
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Yes you do need to break velocity into components. If there is no friction (a sensible assuption in this case), would the rebound affect the vertical component of the velocity?

Hope this helps,
Sam
 
Once you break it into components use the impulse-momentum theorem:

\int\mathbf{F}\,dt=m\mathbf{v}_f-m\mathbf{v}_i
 
impulse

BerryBoy said:
Yes you do need to break velocity into components. If there is no friction (a sensible assuption in this case), would the rebound affect the vertical component of the velocity?
Hope this helps,
Sam


Thanks for replying. I wish i could draw the diagram. Is there a way that i can insert the diagram. Plz let me know
 
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