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A block 61.7 kg block is suspended on an inclined surface at angle θ = 50.7∘ by a cable attached to a winch, as shown in the figure. The coefficients of friction between the block and inclined surface are: μs = 0.66, μk = 0.48 What is the maximum tension in the cord, T, such that the block does not slip? If the maximum tension, evaluated in the previous part, is marginally exceeded, what is the acceleration of the crate up the slope? Number Units

A block 61.7 kg block is suspended on an inclined surface at angle θ = 50.7∘ by a cable attached to a winch, as shown in the figure. The coefficients of friction between the block and inclined surface are: μs = 0.66, μk = 0.48 What is the maximum tension in the cord, T, such that the block does not slip? If the maximum tension, evaluated in the previous part, is marginally exceeded, what is the acceleration of the crate up the slope? Number Units

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A block 61.7 kg block is suspended on an inclined surface at angle θ = 50.7 by a cable attached to a winch, as shown in the figure.
The coefficients of friction between the block and inclined surface are:
μ s = 0.66 , μ k = 0.48
What is the maximum tension in the cord, T , such that the block does not slip? Number Units
If the maximum tension, evaluated in the previous part, is marginally exceeded, what is the acceleration of the crate up the slope? Number Units

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