Power output of cyclist up slope at costant speed

AI Thread Summary
A cyclist coasting down a 7.0-degree slope at 5.0 m/s must overcome gravitational force to maintain constant speed while pedaling uphill. The total mass of the bicycle and rider is 75 kg, and the gravitational force component acting along the slope is calculated using F_biker = mg*sin(θ). The power output required to pedal uphill is derived from the formula P = Fv, where the force is the gravitational component and v is the speed. The discussion highlights confusion over the use of the cosine function in the power calculation, clarifying that it is not necessary when considering the vertical component of force. Ultimately, the cyclist's power output to pedal uphill at the same speed is determined to be approximately 450 watts.
mrsteve
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Homework Statement



A bicyclist coasts down a 7.0 degree slope at a steady speed of 5.0 m/s. Assuming a total mass of 75 kg (bicycle plus rider), what must the cyclist's power output be to pedal up the same slope at the same speed?

Homework Equations


P=Fvcos\theta
K=\frac{1}{2}mv^2
F_g=mg



The Attempt at a Solution



I need to find the net force but since there is presumably no acceleration (constant velocity of 5.0 m/s) the only force is the force to overcome gravity and maintain a constant speed of 5.0 m/s. Correct?

I'm missing a formula somewhere I think. How do I find the force? Once I have that I can determine the Power using the first formula.
 
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Don't worry about force. When he climbs his potential energy changes.
 
Potential energy isn't covered until the next chapter. Also, I don't know the height, so how would I find PE?
 
Speed and angle give you height change per second.
 
What about

F_biker=mg\sin\theta => (75)(9.8)(\sin7)=9.0*10^1

P=(90)(5.0)(\cos7)=4.47*10^2 => 4.5*10^2 = 450W
 
Why do you have cos(7)? It doesn't change the answer much but I don't think it should be there.
 
I thought you needed it because theta is the angle between the force vector and the velocity vector.

No?

It changes the answer a lot without it. 90*50 = 4.5*10^3 I got 4.5*10^2
 
Check your math - cos(7) is 0.993, it can't change the answer tenfold. You have already taken care of the angle calculating vertical component of the force, assuming no friction vertical component is the only one doing work.
 

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