Work to push a sled up a hill: Friction, inclines,force,work

AI Thread Summary
In the discussion about pushing a sled up a 15-degree incline, the sled's mass is 35 kg with a coefficient of kinetic friction of 0.2. The normal force is calculated as 331.313 N, while the downhill force due to gravity is 88.77 N, resulting in a friction force of 66.262 N. The total force required to push the sled uphill at constant velocity is 155.038 N, leading to a work calculation of 2156 J. However, considering the horizontal push and its effect on the normal force, the correct work done is closer to 2300 J, as indicated by the back of the book answer.
krausr79
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Homework Statement


We are pushing a sled up a hill. Our push is horizontal. The hill is inclined at 15 degrees. The sled masses 35 kg. The coefficient of kinetic friction is .2. The hills height is 3.6 m. We push at a constant velocity. How much work do we do in pushing?


Homework Equations


Mass*Gravity Accel*cos(15) = Normal force/Gravity into surface
Mass*Gravity Accel*sin(15) = Gravity slideways
Normal*Coef of friction = friction force
sin(x) = Opp/hyp or hyp = Opp/sin(x)
Work = Force*Distance

The Attempt at a Solution


Normal force = 35*9.8*cos(15) = 331.313N
Force down hill = 35*9.8*sin(15) = 88.77N
Friction force = 331.313*.2 = 66.262N
Length of incline = 3.6*sin(15) = 13.909M
With constant velocity, forces will equal out
gravity and friction = uphill push force = 66.262+88.77 = 155.038N
Work = 155.038*13.909 = 2156J ?

I thought this would be it assuming the force and distance must be in the same direction.

forward push*cos(15) = uphill push
forward push = Uphill push/cos(15) = 155.038/cos(15) = 160.507
Work = 160.507*13.909 = 2232J ?

The back of book answer is 2300J (2 signifigant digits)
Where is the error?
 
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krausr79 said:
We are pushing a sled up a hill. Our push is horizontal. The hill is inclined at 15 degrees. The sled masses 35 kg. The coefficient of kinetic friction is .2. The hills height is 3.6 m. We push at a constant velocity. How much work do we do in pushing?

Normal force = 35*9.8*cos(15) = 331.313N

Hi krausr79! :smile:

No, the push is horizontal, so that will add to the usual normal force. :wink:
 
Thank you.
 

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