Understanding Momentum: Solving Problems with the FT=MV Formula

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Homework Help Overview

The discussion revolves around applying the formula FT=MV, specifically in the context of momentum problems. The original poster presents three distinct scenarios involving collisions and changes in velocity, seeking confirmation on the appropriate formula to use for each situation.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the interpretation of the formula, with some clarifying the use of the delta symbol in the context of momentum. There is also a suggestion to use the formula F=ΔP/Δt for the problems presented.

Discussion Status

The conversation is active, with participants confirming the validity of different expressions of the momentum formula. Guidance has been offered regarding the applicability of the formulas to the problems at hand, though no consensus on a single approach has been reached.

Contextual Notes

The original poster expresses uncertainty about the correctness of their problem-solving approach and seeks confirmation on the formula to use, indicating a need for clarity in the application of the concepts involved.

Zuloft
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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 formula 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?
 
Last edited by a moderator:
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.
 
Last edited by a moderator:

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