Calculating Force on Inclined Plane with Friction

AI Thread Summary
To calculate the force P preventing a body from sliding down a rough inclined plane, the relationship involves the weight W, the angle of the incline φ, and the angle of friction λ. The formula derived is P = W(sin(φ - λ) / cos(α + λ). To solve the problem, one should first relate the angle of friction λ to the coefficient of friction μ and utilize a Free Body Diagram to analyze the forces at play. Identifying the static condition where the block remains at rest is crucial for determining the correct force P. The discussion concludes with the successful proof of the formula.
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Homework Statement


A body of weight W rests on a rough inclined plane and a force P acting at angle \alpha with the inclined plane just prevents the body from sliding down . If the inclined plane makes an angle \phi with the horizontal , prove that

P = W\frac{sin(\phi - \lambda)}{cos(\alpha + \lambda)}

where \lambda is the angle of friction.

Homework Equations



F = \mu N

The Attempt at a Solution



I just don't know where to start . Any hints would be appreciated.
 
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Start with determining how \lambda is related to \mu. Then use a Free Body Diagram to identify all the forces involved, and how they must combine to achieve a static condition (no motion for the block). Solve for P.

There will be some simple trig identities involved in simplifying the expression for P.
 
Thanks gneill , I finally proved it !
 
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