Object being pushed up an inclined plane

Bushman · Dec 14, 2005

I can't figure out how to get the mass of this object, with the information given:

Inclined plane with angle relative to the ground of 20 degrees.

It takes 70 Newtons to get the object moving up the plane.

"Mu" of static friction: 0.35

All my example problems involve an object going down an inclined plane. I have been working on this problem all day, and just seem to get myself more and more confused. Any help would be appreciated.

andrewchang · Dec 14, 2005

try drawing a free body diagram- the forces acting on the block are the push, friction, the normal force, and weight.

Bushman · Dec 14, 2005

I have :(. I don't know the weight, only what I gave above. It seems to me like I need one more piece of information, such as the weight. That is why I posted here, to see if I was missing something obvious.

andrewchang · Dec 14, 2005

well, you are solving for the weight, to get the mass.

you know that [itex] F_f = \mu N = \mu Wcos(\Theta) [/itex]

Bushman · Dec 14, 2005

So that means:

Fsubf = 24.5

24.5 = mu x W x cosTheta

24.5/(mu x cosTheta) = W

Thank you so much, I did not recall that relationship between the Friction force and muN.

Object being pushed up an inclined plane

1. What is an inclined plane?

2. How does an inclined plane affect the motion of an object?

3. What factors affect the motion of an object pushed up an inclined plane?

4. Why is the force required to push an object up an inclined plane less than the force required to lift it straight up?

5. What is the relationship between the height and length of an inclined plane and the force required to push an object up it?

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