Calculating Velocity Using Power

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thedude36
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Homework Statement


The problem I'm working on gives the total power (100 W) that will be exerted by a man (80 kg) climbing a set of stairs(r = 8mi + 4mj). It would like to know at what constant velocity he would have to move to achieve the given power.


Homework Equations


P=dU/dt=F•dr/dt=FV


The Attempt at a Solution



The difficulty I'm having is if he is moving with constant velocity there would be no acceleration and thus no force. So how could there be any power generated? I attempted to find the force the man would have to exert to overcome the force of gravity, which I found to be equivalent to the force of gravity (since they would have to sum to zero). But, when I use this I get a velocity that doesn't make sense (.2849 m/s). Have I got the wrong concept?
 
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thedude36 said:

Homework Statement


The problem I'm working on gives the total power (100 W) that will be exerted by a man (80 kg) climbing a set of stairs(r = 8mi + 4mj). It would like to know at what constant velocity he would have to move to achieve the given power.


Homework Equations


P=dU/dt=F•dr/dt=FV


The Attempt at a Solution



The difficulty I'm having is if he is moving with constant velocity there would be no acceleration and thus no force. So how could there be any power generated? I attempted to find the force the man would have to exert to overcome the force of gravity, which I found to be equivalent to the force of gravity (since they would have to sum to zero). But, when I use this I get a velocity that doesn't make sense (.2849 m/s). Have I got the wrong concept?

But there is a force. It's called gravity.

Compute the rate at which he gains potential energy as he climbs the stairs at a rate of 100W. This will equal mg dh/dt.