A block of mass m = 19 kg rests on an inclined plane with a coefficient of static friction of μs = 0.075 between the block and the plane. The inclined plane is L = 6.2 m long and it has a height of h = 3.55 m at its tallest point. a) What angle, θ in degrees, does the plane make with respect to the horizontal? θ = b) What is the magnitude of the normal force, FN in newtons, that acts on the block? FN = c) What is the component of the force of gravity along the plane, Fgx in newtons? Fgx =

A block of mass m = 19 kg rests on an inclined plane with a coefficient of static friction of μs = 0.075 between the block and the plane. The inclined plane is L = 6.2 m long and it has a height of h = 3.55 m at its tallest point. a) What angle, θ in degrees, does the plane make with respect to the horizontal? θ = b) What is the magnitude of the normal force, FN in newtons, that acts on the block? FN = c) What is the component of the force of gravity along the plane, Fgx in newtons? Fgx =

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Question

A block of mass m = 19 kg rests on an inclined plane with a coefficient of static friction of μ_s = 0.075 between the block and the plane. The inclined plane is L = 6.2 m long and it has a height of h = 3.55 m at its tallest point.

a) What angle, θ in degrees, does the plane make with respect to the horizontal?

θ =

b) What is the magnitude of the normal force, F_N in newtons, that acts on the block?

F_N =

c) What is the component of the force of gravity along the plane, F_gx in newtons?

F_gx =

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