Understanding Momentum: Solving Problems with the FT=MV Formula

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The discussion focuses on solving three physics problems using the momentum formula FT=MV, specifically confirming the correct application of the formula. The first problem involves calculating the force of impact when a football player collides and comes to rest. The second problem requires determining the contact time of a golf club with a ball given the force applied and the ball's mass. The third problem asks for the force needed to change a baseball's velocity in a specific direction. Participants confirm that using the formula F=ΔP/Δt is appropriate for all problems, as it relates momentum change to force.
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i have 3 problems for homework and I am stomped. i don't know if the way I am solving the problem is right. I am using the FT=MV forumla for all 3 problems.


1) a football player of mass 120 kg is traveling at 20 m/s collides with another player and comes to rest in 1.5 s. what is the force of impact?

2) a golf ball of mass 0.050 kg acqyuires a speed of 80 m/s when hit with a force of 3.0 x 10 ^3 n. how long was the club in contact with the ball

3) what force acting for 1.36 x 10 ^-3 will change the velocity of a 95 g baseball from 50.0 m/s east to 45 m/s west?


thanks!? but i just need confirmation on what formula to use.
 
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just to clarify when you say FT=MV you do mean Ft=M\Delta V?
 
correct i couldn't find the delta symbol
 
Yeah, using F=\frac{\Delta P}{\Delta t} will work for all three.
 
https://www.physicsforums.com/latex_images/88/884080-0.png


can i use that though?
 
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Zuloft said:
https://www.physicsforums.com/latex_images/88/884080-0.png
can i use that though?
There isn't any difference between them, other than algebra manipulatioon. \Delta P = m \Delta v since mv is the definition of momentum, and mass is a constant.
 
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