Calculating Force for Uniform Deceleration in a Mass-Force Relationship

AI Thread Summary
To calculate the force required for uniform deceleration, the initial momentum of a 2450 kg car traveling at 16.4 m/s was found to be 40,180 kg*m/s. The deceleration force of 8930 N was used to determine the acceleration, resulting in -3.64 m/s². Applying the formula F=ma for a 3170 kg car, the force needed for the same acceleration was calculated to be approximately 11,554 N. The discussion highlighted the importance of correctly interpreting the question and not being misled by the initial speed provided. Understanding the relationship between mass, acceleration, and force is crucial for solving such problems.
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Homework Statement


A 2450 kg car traveling to the west at 16.4 m/s slows down uniformly under a force of 8930 N to the east.
a) How much force would be required to cause the same acceleration on a car of mass 3170 kg? Answer in units of N.


Homework Equations





The Attempt at a Solution


I found in the first cart 2450x16.4 = 40,180 kg*m/s (the momentum)
Since 8930 N is the same as 8930 kg*m/s^2
40,180 / 8930 = 4.49900449 seconds

I tried to use a similar with the second cart 3170 kg, but the problem is I don't know the force since I'm trying to find it I got stuck.
 
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4.49...s is the time it takes for the car to decelerate to a stop not the value of its acceleration...dont you want to use F=ma for this question? ;0)
 
That's what I thought too gabba, but then figured I was wrong to having it be a question.

F = ma
(-)8930 = 2450a
a = -3.64 m/s^2

F = ma
F = (3170)(3.64 m/s^2)
F ≅ 11,554 N
 
Looks good to me...the fact that they told you the initial speed was meant to throw you off.
 
O I see I totally misread the question... yea the intial speed threw me off... i under stand it now. thanks a lot!
 

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