Where Does the Work Go When Pushing a Heavy Box Against Friction?

  • Thread starter Thread starter chingcx
  • Start date Start date
  • Tags Tags
    Friction Work
AI Thread Summary
When pushing a heavy box against friction without movement, no work is done on the box, and all energy expended by the person is converted to heat. If the box moves at a constant velocity, the applied force equals the frictional force, resulting in no change in kinetic energy, meaning the work done also converts to heat. The discussion emphasizes that all mechanical energy, in most cases, ultimately dissipates as heat. The concept of "work done against friction" refers to the energy expended to overcome friction, but it does not result in net work on the box. Overall, whether stationary or moving at constant velocity, the energy expended primarily transforms into heat energy.
chingcx
Messages
21
Reaction score
0
If I push a heavy box on the ground but it doesn't move at all (due to friction), the work done on the box is of course zero. But where does the work I done go? From a website, it says the work is done on myself (in the muscle whatsoever), which I find weird because once it moves, the work is done against friction? Or in both cases it is done against friction?

Any help is appreciated. Thank you.
 
Physics news on Phys.org
If there is no motion, there is no work performed on the box, period. Your body, no the other hand, is constantly using chemical energy (equivalent to work), whether you are pushing on the box or not. When you push on the box and fail to move it, what can really be said, then is that the chemical to mechanical energy conversion efficiency is zero and all of that energy is converted to heat.
 
russ_watters said:
If there is no motion, there is no work performed on the box, period. Your body, no the other hand, is constantly using chemical energy (equivalent to work), whether you are pushing on the box or not. When you push on the box and fail to move it, what can really be said, then is that the chemical to mechanical energy conversion efficiency is zero and all of that energy is converted to heat.

ya, thanks, I get your meaning, but if the box is moving, for example, at a constant velocity. It is evident that the friction balances the applied force, but on the other hand the box's KE is not increasing. So the work done converts to heat energy again? But in this case, the box is really moving, the work done should not be zero?
 
chingcx said:
If I push a heavy box on the ground but it doesn't move at all (due to friction), the work done on the box is of course zero. But where does the work I done go? From a website, it says the work is done on myself (in the muscle whatsoever), which I find weird because once it moves, the work is done against friction? Or in both cases it is done against friction?

Any help is appreciated. Thank you.

The way I see it, the work done in your example equals the electromagnetic atomic reactions integrated over related deformations of the ground-person-box circuit.
 
chingcx said:
ya, thanks, I get your meaning, but if the box is moving, for example, at a constant velocity. It is evident that the friction balances the applied force, but on the other hand the box's KE is not increasing. So the work done converts to heat energy again? But in this case, the box is really moving, the work done should not be zero?
Yes, on both counts. Ultimately, pretty much all mechanical energy (on earth, at least) ends up as heat. One exception would be carrying a weight up a hill and leaving it there...
 
Loren Booda said:
The way I see it, the work done in your example equals the electromagnetic atomic reactions integrated over related deformations of the ground-person-box circuit.
"The ground-person-box circuit" defoms once, but the body will continue to release energy indefinitely.
 
russ_watters said:
Yes, on both counts. Ultimately, pretty much all mechanical energy (on earth, at least) ends up as heat. One exception would be carrying a weight up a hill and leaving it there...

so you mean work done on the box = Fs
work done by friction = -fs
so no net work done on the box? All work done (both by me and the friction) dissipated as heat energy?

it sounds reasonable to me.


so what does "work done against friction" mean?
 
chingcx said:
so you mean work done on the box = Fs
work done by friction = -fs
so no net work done on the box? All work done (both by me and the friction) dissipated as heat energy?
Correct.
so what does "work done against friction" mean?
Not sure what you are still confused about - you explained it well enough above!
 

Similar threads

B Questions about momentum and force as well as normal force/friction
Replies
35
Views
4K
Is there any work done by static friction when accelerating a car?
4
Replies
163
Views
12K
Is Work Being Done When a Car Travels at Constant Velocity Against Friction?
Replies
24
Views
3K
B Why does friction decrease with repeated force application?
Replies
11
Views
2K
Understanding the Contradictory Definitions of Work Done in Physics Textbooks
Replies
4
Views
3K
B Why does ice have more friction when it's solid compared to when it's melting?
Replies
11
Views
2K
Work done by varying friction against a constantly moving surface
Replies
1
Views
1K
Why is the Work Done by Friction on a Ramp Uncertain?
Replies
9
Views
2K
Work done due to static friction in a boat-man system
Replies
3
Views
2K
I want to clear my doubts (friction and work)
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top