Finding the magnitude of the friction force.

AI Thread Summary
An 8kg ball descends a 12m high inclined plane, initially moving at 6m/s and reaching 12m/s at the bottom. The potential energy is calculated as 960J, while the initial kinetic energy is 144J, leading to a total energy of 1104J. The work done against friction is determined to be 384J, resulting in a frictional force of 22N when the calculations are adjusted for the initial speed. The initial kinetic energy was crucial for arriving at the correct answer, which aligns with the book's solution.
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Homework Statement



An 8kg ball moves down a 12m high inclined plane with a speed of 6m/s. By the time it reaches the bottom, the speed is measured to be 12m/s. What is the frictional force opposing the motion? The inclined plane has an angle of 30 degrees with respect to the ground.

Homework Equations



Potential energy = mgh
Kinetic energy = 1/2mv^2
Work done by external forces = ΔE
Work done: Fs (or Fscos(theta))

The Attempt at a Solution



The first step is to calculate the potential energy and kinetic energy, which is 960J and 576J respectively. Hence ΔE=960-576=384J.

Now, since the height is 12m and the angle is 30 degrees, the length of the inclined plane is 12/sin30 or 24m.

Finally, 24f=384 which yields an answer for f as 16N.

I might have gotten the correct answer, but in the book it says that the answer is supposed to be 22N, so I'm assuming I'm missing something, perhaps it has something to do with the initial speed which I haven't included in my calculations.

Thanks in advance,
 
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I think you forget initial KE.
 
Please elaborate. I assumed it was 0.
 
I'd very much like help on this one!
 
A bit unclear on the wording, but the initial speed is 6 m/s at the top of the ramp. Watch your signage.
 
Not sure If I follow what you're saying. Could you elaborate?
 
l think the problem meant to say that the ball is projected down the ramp with an initial speed of 6 m/s, that is, it already had a speed of 6 m/s when it reached the top of the ramp. So re-do your calcs, and see azizlwl post 2.
 
It doesn't travel up the plane, it travels down the plane. I.e. it has an initial speed of 6m/s when it is at the top (the beginning) and a speed of 12m/s at the bottom (the end). Hence, initial KE=0?

EDIT: Oh! Now I see what you mean. It didn't go from rest to 12m/s meaning it had some kinetic energy at the top as well. In other words, initial KE=144J and hence, initial (total) energy= 144+960=1104J.

Using that, I get an answer of 22N. Thank you for your help!
 
Last edited:

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