Efficiency of Ramp: Solving Box Push Up Problem

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SUMMARY

The efficiency of a ramp used to push a 7.0 kg box up a height of 6 m with a hypotenuse of 12 m is calculated using the formula Eff=(Wout/Win) x100. The input work (Win) is determined by the force of 40 N applied to move the box at a constant velocity. The output work (Wout) is calculated using the normal force of 68.6 N multiplied by the distance of 12 m, resulting in an output work of 823 J. The efficiency is ultimately determined to be 58%, indicating the ratio of useful work output to work input.

PREREQUISITES
  • Understanding of basic physics concepts such as force, work, and energy.
  • Familiarity with the equations of motion and Newton's laws.
  • Knowledge of potential energy calculations.
  • Ability to apply the efficiency formula in practical scenarios.
NEXT STEPS
  • Study the principles of mechanical advantage in inclined planes.
  • Learn about calculating potential energy in different contexts.
  • Explore the concept of work-energy theorem in physics.
  • Investigate real-world applications of efficiency in mechanical systems.
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Students studying physics, particularly those focusing on mechanics, as well as educators looking for practical examples of efficiency calculations in inclined planes.

Zack K
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Homework Statement


A 7.0 kg box is pushed up the ramp (height is 6 m and hypo is 12 m) in 3.25 s. If it requires a force of 40 N to push at a constant velocity, what is the efficiency of the ramp?

Homework Equations


Eff=(Wout/Win) x100
W= Fxd
F=ma

The Attempt at a Solution


The problem I have is that I don't know if 40.0 N is the force for Wout or Win. But I am guessing that it is Win since it's the minimum force need to push at a constant velocity. Then to get Wout you find the Normal force of the box which is 7 kg x 9.8= 68.6 N then you use W=68.6 x 12= 823 J. 480/823=58% efficient. But of course that's not right.
 
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How much energy goes into the box pushing it up the ramp?
How much of that energy does the box finish up with?
 
Zack K said:
Normal force of the box which is 7 kg x 9.8= 68.6 N
since it's a ramp, the normal force would not equal to the weight of object.
 
So by definition the efficiency is eff=(how much energy you got out)/(how much energy you put in). In this problem, the 40N is the force you put in and the potential energy is the energy you get out. Hope that helps you
 

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