Find the minimum weight of block A in order for motion to be impending down the plane (to the left). Assume the pulley to be frictionless. Given: WB = 275 lbs, θ = 35 °, μ = 0.25 for all surfaces.

Question

Physics

Kelsey

15 October, 14:14

Find the minimum weight of block A in order for motion to be impending down the plane (to the left). Assume the pulley to be frictionless. Given: WB = 275 lbs, θ = 35 °, μ = 0.25 for all surfaces.

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Answers (1)

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Miah · Answer 1

88.25lbs

Explanation:

Let N be the minimum weight to be found.

firstly we have to solve for the force body diagram for both blocks, for block B which is stable, we have its weight acting downwards, for it to move left affected by block A it would need a horizontal component which is the frictional force and we can calculate it as weight of B x coefficient of friction = 275lbs x 0.25 = 68.75lbs.

Calculating same for block A: (free body diagram)

the horizontal and vertical component of the forces on A would be:

Nsin35 (horizontal comp) + Ncos35 (0.25) (vertical comp) = 68.75lbs

=0.574N+0.205N=68.75lbs.

solving the above equation and making N subject of formula would result to 88.25lbs.