Calculating Heat Energy Generated from Work and Power

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The problem involves calculating the heat energy generated when a 120 N force moves a 15 kg crate at a constant speed of 3.2 m/s over 6.2 m. The work done by the force is calculated as 744 J, while the power used is determined to be 384 W, leading to a work output of approximately 198.19 J. The heat energy generated is found by taking the difference between the work done and the work output, resulting in 550 J. The opposing frictional force is equal to the applied force, confirming that the friction is responsible for dissipating energy as heat. Understanding the relationship between work, power, and friction is crucial for solving such problems effectively.
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Homework Statement


A force of 120 N pushes a crate of mass 15 kg along the ground at a constant speed of 3.2 m/s for a distance of 6.2 m. What amount of heat energy was generated during this time?

Homework Equations


W=F*d
t=d/v
P=F*v
W=P/t

The Attempt at a Solution


I have solved this problem by finding out the work done by the force (W=F*d=744 J).
The time is t=d/v=1.9375 s.
The power that is actually used is P=F*v=384 W.
The work that is actually done is W=P/t=198.1935484 J.
So the heat energy generated is the difference between the two W amounts = 550 J.

I don't know if this is correct. I am also not using the mass given in the problem. I don't know if the mass is extra data, or if there is maybe a simpler way to do it. Maybe without using the Power, as there is no engine in the problem.
Any help or suggestions greatly appreciated. :)
 
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A force of 120 N pushes a crate of mass 15 kg along the ground at a constant speed of 3.2 m/s for a distance of 6.2 m. What amount of heat energy was generated during this time?
The crate is being kept at constant velocity while the force is acting. What's stopping the crate from accelerating ? An opposing force which must be friction. So you need to calculate the frictional force, and this needs the mass of the crate.
 
How would I calculate the frictional force?
Ff=µ*Fn
I know Fn, but µ?
I was also thinking that since acceleration is 0, Fnet = 0.
So Ff = F = 120 N.
Therefore W = F * d. Just that simple.
Anyone agrees?
 
Yes. The opposing force must be equal to the applied force if the velocity is constant. So the frictional force is 120 N. Now you have it completely.
 
Thank you so much.
The problem sounds so complicated and confusing with a simple formula to use in the answer.
 
You reasoned your way to the correct answer, so you've had the most benefit you can get from the exercise. But the idea of friction dissipating energy as heat is also part of the answer. I hope you get full marks.
 

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