Work done on package by gravity: 784JNet work done on package: -37.7J

AI Thread Summary
The discussion centers on calculating the work done on an 8.00 kg package sliding down a 2.00 m incline with a 53.0-degree angle and a coefficient of kinetic friction of 0.400. The work done by gravity is determined using the weight of the package and its component along the incline, while the normal force does not contribute to work since it acts perpendicular to the motion. The frictional force, calculated as 37.7 J, opposes the motion, affecting the net work done on the package, which is found to be -37.7 J. The participants clarify the roles of gravitational force, normal force, and friction in the context of work done. Ultimately, the problem is resolved by correctly identifying the forces and their contributions to the work done.
bigtymer8700
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[SOLVED] Work done on box

Homework Statement


An 8.00kg package in a mail-sorting room slides 2.00m down a chute that is inclined at 53.0 below the horizontal. The coefficient of kinetic friction between the package and the chute's surface is 0.400.

its asking me for the work done on the package by gravity and then the net work done on the package. wouldn't the work by gravity just be the weight. and for the normal force i just subtracted the frictional force from the normal force. where am i messing up?

Homework Equations


W= F cos(53) s
Friction Force= .4(Fnormal)

The Attempt at a Solution


I already figured out the frictional force to be 37.7 and the force 94J.
 
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bigtymer8700 said:

Homework Equations


W= F cos(53) s
Friction Force= .4(Fnormal)

The Attempt at a Solution


I already figured out the frictional force to be 37.7 and the force 94J.

I'm afraid this doesn't makes a lot of sense as it stands. Start with the forces:

You have the frictional force correct, but what is F_normal?

What is the weight force on the package? What component of that force points along the incline?

Of these three forces -- normal force, kinetic friction, and weight -- which ones will do work along the incline on the package?
 
For F_normal I have F_normal = (8kg)(9.8 m/s^2) cos53. is that correct?
and niether of those do work along the incline do they? the kinetic friction is going against it the weight is downwards and the F_normal is up right?
 
bigtymer8700 said:
For F_normal I have F_normal = (8kg)(9.8 m/s^2) cos53. is that correct?

That's right.

and niether of those do work along the incline do they? the kinetic friction is going against it the weight is downwards and the F_normal is up right?

The normal force is perpendicular to the direction the package moves, so it does not work on the package.

The kinetic friction force points up the slope and there is a component of the weight force that points down the incline. What are the magnitudes of those forces?
 
i thought the kinetic friction pointed opposite of the x direction? The component that points down would be the U=mgy correct?
 
ok i got that part and finished the rest of the problem thanks!
 
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