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A crate is at rest on an inclined plane. As the slope increases the crate remains at rest until the incline reaches an angle of 32.7° from the horizontal. At this angle the crate begins to slidedown the ramp.Apply Newton's 1st or 2nd law to each axis of the Free body diagram.

User Jeremy Fuller
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1 Answer

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9 votes

The free body diagram of the crate can be shown as,

According to free body diagram, the net force acting on the crate is,


F=mg\sin \theta-f\ldots\ldots\text{ (1)}

The frictional force acting on the crate can be given as,


f=\mu N

According to free body diagram, the normal force acting on the crate is,


N=mg\cos \theta

Therefore, the frictional force becomes,


f=\mu mg\cos \theta

According to Newton's second law, the net force acting on the crate is,


F=ma

Therefore, equation (1) becomes,


\begin{gathered} ma=mg\sin \theta-\mu mg\cos \theta \\ a=g\sin \theta-\mu g\cos \theta \end{gathered}

Thus, the net acceleration of the crate can be expressed using Newton's second law as,


a=g\sin \theta-\mu\cos \theta

A crate is at rest on an inclined plane. As the slope increases the crate remains-example-1
User Catharz
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