How Much Work is Done Pushing a Crate Up an Incline?

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SUMMARY

The discussion centers on calculating the work done in pushing a 25.0 kg crate up a frictionless incline at an angle of 25.0 degrees. A force of 209N is applied parallel to the incline over a distance of 1.50m. The correct formula for work is W = F * d * cos(angle), where the angle is 0 degrees since the force is parallel to the incline. The calculated work done is 314 J, confirming that extraneous information, such as the incline angle and crate mass, does not affect the outcome.

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This discussion is beneficial for physics students, educators, and anyone interested in understanding work calculations in mechanics, particularly in scenarios involving inclined planes and forces.

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To push a 25.0 kg crate up a frictionless incline, angled at 25.0 degrees to the horizontal, a worker exerts a force of 209N parallel to the incline. As the crate slides 1.50m, how much work is done on the crate by the worker's applied force?

I know that W=d x F(cos(angle))

Why doesn't it work when I use (1.50m)(209N)(Cos(25)) = 284 J

Answer is supposed to be 314 J. Is the angle used in the equation supposed to be 0 because the force is parallel to the incline? If the force was parallel to the x axis, would you then use Cos (25)? Just want to make sure I'm understanding this.
 
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Because the force is parallel to the incline, the angle of the incline is not relevant to solving the problem. The mass of the crate likewise has nothing to do with solving the problem because you are given the magnitude of the force.

Work in this case = F*d*cos(angle between the force and distance vectors, which is 0 in this case) = 209*1.5 * 1 = 313.5 which rounds to 314.

You always need to be on the lookout for extraneous information in problems like these :)
 

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