Calculating Impulse for 0.5kg Ball Bouncing off Wall: Theta = 50

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The discussion focuses on calculating the impulse experienced by a 0.5kg rubber ball bouncing off a wall at an angle of 50 degrees with a speed of 8m/s. The initial momentum is calculated as p = mv = 4 kg·m/s, with components determined using trigonometric functions. The y-component of momentum remains unchanged during the collision, while the x-component reverses direction, leading to a total change in momentum of 8cos(50). The calculation confirms that gravity is not a factor in this scenario. The final impulse matches the answer key, confirming the calculations are correct.
ted_chou12
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Hi I am not sure about the idea of momentum p=mv:

3: A 0.5kg rubber ball bounces off a wall (below left). The speed of the ball is 8m/s before
and after the collision. Use theta = 50.
a: Determine the impulse given to the ball. In other words, find (delta)p.

The diagram looks like
bounce up to here
Code: 
|    /
|t /
|/
|\
|t \
|    \
start here
the two t's represents theta.
Thanks,
Ted
 
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The initial momentum of the ball is p = mv = (.5)(8)=4 and this is at a fifty degree angle with the vertical. Therefore, the y-component is psin(\theta)=4sin(50) and the x-component is pcos(\theta)=4cos(50) When the ball bounces off the wall, the y-component of momentum is staying the same (not accounting for gravity in this case). Meaning, that only the x-component of momentum has changed. Since the final angle is the same as the initial angle, the change in momentum is enough for the x-component of momentum to have the same magnitude in the opposite direction, meaning it was two times the original x-component, so your \Delta P should actually be 2pcos(\theta)=8cos(50)

I'm pretty sure you're not supposed to account for gravity in this problem and assume that the y momentum is zero, but I could be thinking through this wrongly.
 
Last edited:
thank you very much! this answer is perfectly matching the answer key 6.13kgm/s(x).
 

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