Impulse, Momentum, and Baseball

AI Thread Summary
The discussion focuses on calculating the change in momentum and impulse of a baseball with a mass of 0.145 kg, pitched at 45.0 m/s and hit back at 55.0 m/s. The change in momentum is calculated as -14.5 kg*m/s, which is the same as the impulse applied by the bat. When considering the average force exerted by the bat over a contact time of 2.00 ms, the average force is determined to be -7250 N. The conversation clarifies that while the calculations yield negative values indicating direction, the magnitude should be reported as positive. Overall, the relationship between impulse and momentum is emphasized, confirming that they are equivalent in this context.
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A baseball has mass 0.145 kg.

A. If the velocity of a pitched ball has a magnitude of 45.0 m/s and the battered ball's velocity is 55.0 m/s in the opposite direction, find the magnitude of the change in momentum of the ball.

delta p = m*delta v = m*(v2 -v1) = .145 kg (-55.0 m/s - 45.0 m/s) = -14.5 kg*m/s

B. Find magnitude of impulse applied to it by bat.

J = F*delta t = delta p = -14.5 kg*m/s ?? Is it the same as the above?

C. If the ball remains in contact with the bat for 2.00 ms, find the magnitude of the average force applied by bat.

J = Avg. F*delta t

delta t = 2.00 ms(1s/1000 ms) = .002 s

Avg. F = J/delta t = (-14.5 kg*m/s)/.002 s = -7250 N ?

Thanks.
 
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All good. (Since they ask for magnitudes only, your answers should be positive.) And yes, since impulse equals change in momentum, the answers to A and B are the same.
 
why should the answer be positive ? iam kind of confused I thought it depended on what velocity is positive and negative
 
It comes from the formula for magnitude - 2d = sqrt(x^2 + y^2). Even if x or y were negative, -x * -x = +x^2. There are no square roots of negative numbers (apart from complex numbers).
 
The answers should be positive, since they are asking for the magnitudes. The negative sign gives you the direction.
 

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