Power Relative to Time Question

AI Thread Summary
A car accelerates from rest over a measured distance in 57 seconds with a constant power of 290 kW. The discussion focuses on how to calculate the change in time required for the run if the engine power is increased by 1.0 W. Key equations involve the relationship between power, work, and time, where work equals force multiplied by distance. The participants explore the implications of constant distance and how it allows for simplifications in the calculations. A request for a step-by-step solution highlights the complexity of the physics involved.
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Homework Statement


A funny car accelerates from rest through a measured track distance in time 57 s with the engine operating at a constant power 290 kW. If the track crew can increase the engine power by a differential amount 1.0 W, what is the change in the time required for the run?


Homework Equations





The Attempt at a Solution

 
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Go on then, what's your idea of how to do it?
 
I know that you have to take the integral of the P=dW/dt, but i don't know where to go from there.
 
Well, you know that power is the rate of doing work. So you can work out how much work has been done in accelerating. Yes?

Now you also know that work = Force * distance.

You don't know what the distance is - but you do know it is the same for both runs so there's a good chance it will cancel - so just call it s.

We also know that s =1/2 * a * t^2 and f = m * a (Newtons equations)
So s=1/2 * f/m * t^2
m and s are constants so f * t^2 must be a constant.

i.e f1 * t1 ^2 = f2 * t2^2 ( calling the force and time for each run 1 and 2)

So if we multiply each side by s, we get
s * f1 * t1^2 = s * f2 * t2^2

but s* f is the work done in each run, so now we have a simple formula relating the work done to the time of the run ... and we know the work done.
 
I appreciate the help. I still don't understand it. Would it be too much to ask for a step by step solution? Physics is a very hard subject for me.
 
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