Question
Part 1) The block in the figure is initially at rest on an inclined plane at the equilibrium position that it would have if there were no friction between the block and the plane. How much work is required to move the block 50 cm down the plane if the frictional coefficient is μ = 0.?
Part 2)How much work is required to move the block 50 cm down the plane if the frictional coefficient is μ = 0.27?
Part 2)How much work is required to move the block 50 cm down the plane if the frictional coefficient is μ = 0.27?
Answers
Spring on Incline
The block in the figure is initially at rest on an inclined plane at the equilibrium position that it would have if there were no friction between the block and the plane. How much work is required to move the block 25 cm down the plane if the frictional coefficient is μ = 0.?
How much work is required to move the block 25 cm down the plane if the frictional coefficient is μ = 0.16?
30 degree incline
M=2.0 kg
K= 40 N/m
The block in the figure is initially at rest on an inclined plane at the equilibrium position that it would have if there were no friction between the block and the plane. How much work is required to move the block 25 cm down the plane if the frictional coefficient is μ = 0.?
How much work is required to move the block 25 cm down the plane if the frictional coefficient is μ = 0.16?
30 degree incline
M=2.0 kg
K= 40 N/m
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