Object being pushed up an inclined plane

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Homework Help Overview

The discussion revolves around a physics problem involving an object being pushed up an inclined plane. The scenario includes an incline angle of 20 degrees, a force of 70 Newtons required to move the object, and a coefficient of static friction of 0.35. The original poster expresses confusion regarding how to determine the mass of the object with the given information.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the necessity of a free body diagram to visualize the forces acting on the object, including push force, friction, normal force, and weight. The original poster questions the lack of information, specifically the weight of the object, which is needed to find the mass. Another participant suggests a relationship involving friction force and the normal force.

Discussion Status

The conversation is ongoing, with participants exploring different aspects of the problem. Some guidance has been offered regarding the relationship between friction force and the normal force, but there is no explicit consensus on how to proceed without additional information.

Contextual Notes

The original poster indicates a potential gap in information, specifically the weight of the object, which is crucial for solving the problem. There is an emphasis on the need for clarity regarding the forces involved in the scenario.

Bushman
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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.
 
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try drawing a free body diagram- the forces acting on the block are the push, friction, the normal force, and weight.
 
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.
 
Last edited:
well, you are solving for the weight, to get the mass.

you know that F_f = \mu N = \mu Wcos(\Theta)
 
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.
 

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