Simple Machines B/Compound Machines C Question Marathon
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SWAnG
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Re: Simple Machines B/Compound Machines C Question Marathon
lighter material, reduce friction/contact of other materials
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Algorhythmic
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Re: Simple Machines B/Compound Machines C Question Marathon
And for similar reasons, explain why using higher masses in calculations might increase your accuracy.
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SWAnG
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Re: Simple Machines B/Compound Machines C Question Marathon
You lose sensitivity, as the ratio of the actual weights to the mass of your lever decreases. (When it's balanced, it's not as accurate this way). Think about it, when you have a heavier bar, it requires more force to move it then a lighter bar.
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treeling
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Re: Simple Machines B/Compound Machines C Question Marathon
I don't believe your answer is right.lchs wrote:I'm not so sure about this but I'll give it a shot...Mathdino wrote:Suppose that the pulley in the below image is connected to something weighing 10 kg, and I need to pull on it with 9 N of force to hold it up. What's the efficiency? [img]http://02.edu-cdn.com/files/89501_89600/89569/file_89569.jpg[/img]
IMA = (Force out of the machine)/(Force into the machine). So for this scenario, the Force into the machine would be 9N, I think. And the Force out of the machine would be 10kg * 9.8m/s/s = 98N. Therefore, the IMA = 98N/9N = 10.89? I feel like I need to use the visual somehow, but this is what I ended up doing... :?
IMA is Ideal Mechanical Advantage.
IMA is calculated by distance. Not force.
It your were calculating a MA with force that would be AMA (Actual Mechanical Advantage).
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misterstealyogirl
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Re: Simple Machines B/Compound Machines C Question Marathon
Isn't the IMA 9? So the ideal force required would be 98/9 or 10.9 N? If so, then how can the force required be less? Unless I have the IMA wrong......
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SWAnG
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Re: Simple Machines B/Compound Machines C Question Marathon
Agreed, I see the efficiency being over 100 percent, which is obviously not right
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Algorhythmic
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Re: Simple Machines B/Compound Machines C Question Marathon
Explain why there is a difference in the calculation of IMA in the inclined plane and the wedge, with the IMA of the inclined plane being dependent on the hypotenuse length and the wedge being dependent on the overall length.
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SWAnG
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Re: Simple Machines B/Compound Machines C Question Marathon
I thought wedge was dependent on the length of the slope?
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Algorhythmic
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Re: Simple Machines B/Compound Machines C Question Marathon
Oops, I thought it would be the overall length of wedge because that would be considered the input distance.