Solve Machines Problem: Ramp 18m Long & 4.5m High

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The discussion focuses on calculating the Ideal Mechanical Advantage (IMA) and Mechanical Advantage (MA) for a ramp that is 18 meters long and 4.5 meters high, used to move a 25-kg box at constant speed without friction. The formula for IMA is given as the ratio of the input distance to the output distance, specifically the length of the slope divided by the height of the slope. The conversation clarifies that a higher mechanical advantage indicates less work needed to move a heavy load over a shorter distance. The participants emphasize understanding the definitions and applications of IMA and MA in the context of inclined planes. This problem serves as a practical application of physics principles related to mechanical advantage.
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[SOLVED] Machines Problem

Homework Statement



A ramp, 18m long and 4.5m high is set up in order to wheel a 25-kg box at a constant speed. Assume that by wheeling it there is no friction.

Homework Equations



IMA= \frac{d_{in}}{d_{out}}


The Attempt at a Solution



I know this is a pretty simple problem but I don't know how to tell which distance is "in"and which is "out".

Please help, I can't find any sample problems in my book and we never got any practice in class...and I have a test tomorrow! :( Thank you.
 
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What are you trying to find out - what is the actual question ?
 
o, I am sorry, I have to find the IMA and MA... (ideal mechanical advantage and mechanical advantage).
 
Ok, I hadn't seen the acronym before.
Mechanical advantage is generally = distance you apply the force over / distance work is done.
So in an inclined plane = length of slope / height of slope
If there is no friction then Ideal MA would = MA

To work out which way up, you would generally want a MA > 1 so you do less work for a longer distance to move a heavy load a short distance.

ps. Although not always, high gear on a bike has fractional mechanical advantage so you apply a large force over a small diustance to move the bike wheel a large distance with low force.
 
Last edited:
ok thanks so much! :D
 
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