Calculating Work from a Force-Time Graph

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Work can be calculated from a force-time graph by understanding the relationship between impulse and work. While the area under the force-time graph represents impulse, it can be connected to work done if the force acts over a distance. In scenarios involving large forces over short time periods, such as a railway engine accelerating from rest, the impulse can help determine the change in momentum and subsequently the work done. The discussion highlights the challenge of directly relating force-time data to work without additional context, but it confirms that it is possible with the right approach. Ultimately, understanding the underlying physics principles is key to solving these types of problems.
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Hi everybody,

I was given a set of physics problems and some of them ask us to find work. The problem is, we are given a force-time graph as opposed to a force-distance graph. My question was whether there was a way of finding work done using a force-time graph. I don't see how it could be done and i haven't found anywhere where you can do it but I have a feeling it can be done.

Does anyone know? Please reply either if it can or can't be done...

Thank you
 
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Not if the force and dt are the only info given...
 
Sry, ignore my last post. Yes, you can.
 
Sorry, how can you find it out?

I tryed the area under the graph but that doesn't work
 
Sorry, how can you find it out?

I tried the area under the graph but that doesn't work
 
What kind of force-time graphs are they? I'm guessing they're impulse graphs (large force over relatively short period of time); if so, you can assume the impulse approximation. What does this tell you about the work done (or more precisely, the distance traveled due to a force)?
 
Yes, they are graphs with large forces over small amounts of time.

I'm sorry but I can't see the connection between this graph and work and/or distance.

If it helps, one of the questions talks about a railway engine of x mass moving from rest along a straight track. It then gives you the force-time graph.
 
It's ok now...I've figured out the answer

Thanks everyone for your help
 
Hi,

I have the same question as you. How did you find the work done using force - time graph?? Thanks.
 

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