Possible webpage title: What Type of Simple Machine Has an Efficiency of 81.7%?

AI Thread Summary
The discussion revolves around calculating the efficiency of a simple machine, which is found to be 81.7%. The user correctly applies the formulas for work output and work input but uses a nonstandard value for gravitational acceleration. The low efficiency suggests significant friction or air resistance affecting the machine's performance. The maximum theoretical efficiency is stated to be 100%, indicating that real-world machines will always have some energy loss. The conversation concludes with a prompt to identify the type of simple machine that could exhibit such efficiency.
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Homework Statement



Could I please have a tutor check my answer and solution?

question: An effort of 3 kN is required to move a mass of 2000 kg in a certain simple machine. If the mass is raised 1.5 meters while the effort moves 12 meters, find the efficiency?

2. equations used in solution:

work output = load x distance moved by load
work input = effort x distance moved by effort
efficiency = work output / work input
3kN = 3000 Newtons

The Attempt at a Solution



my solution:

efficiency = work output / work input

mass = 2000 kg =19613.3 Newtons x 1.5 meters /

3000 Newtons x 12 meters

effort = 29419.95 Nm / 353039.4 Nm

= 0.817

Now, is it possible to have such a low efficiency in a machine? What simple machine would this be?





 
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scientist said:
efficiency = work output / work input

mass = 2000 kg =19613.3 Newtons x 1.5 meters /

3000 Newtons x 12 meters

effort = 29419.95 Nm / 353039.4 Nm

= 0.817
Your solution is correct, although you seemed to have used a nonstandard value for the acceleration due to gravity.
scientist said:
Now, is it possible to have such a low efficiency in a machine? What simple machine would this be?
Why do you think that this efficiency is low? What is the maximum theoretically possible efficiency?
 
Which nonstandard value did I use?

Why do you think that this efficiency is low? What is the maximum theoretically possible efficiency? The maximum theoretically possible efficiency would be 100%.

I think the efficiency is low because we have a number of .817.The efficiency of any machine depends upon the amount of friction and air resistance present. A frictionless machine would have an efficiency of 100%. Here we have .817 for efficiency, so we must have a lot friction or air resistance.
 
scientist said:
Which nonstandard value did I use?
You used g = 9.80665, which is indeed the standard acceleration due to gravity; however, g is more commonly approximated to 9.81 since the actual value of g varies greatly depending on location. It is not a serious problem though.
scientist said:
The maximum theoretically possible efficiency would be 100%.
I think the efficiency is low because we have a number of .817
Note here, that 0.817 is not a percentage efficiency.
 
Ok, the percentage efficiency is 81.7%. How can I find out what kind of simple machine this would be?
 
scientist said:
Ok, the percentage efficiency is 81.7%. How can I find out what kind of simple machine this would be?
Correct. Consider what type of machine/system would operate in such a way?
scientist said:
An effort of 3 kN is required to move a mass of 2000 kg in a certain simple machine. If the mass is raised 1.5 meters while the effort moves 12 meters[...]
 

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