A 35.0g bullet traveling at 325.0 m/s strikes and becomes embedded in a 544 g block of wood that is sitting on a horizontal table top. b. Instead of using your answer from part a, assume the block with the bullet in it is moving at 25.0m/s immediately after the collision. If the block with the bullet in it slides across a 14.60m region where the coefficient of kinetic friction is 0.750 and then slides across a frictionless region and encounters a spring with a spring constant of 900 N/m, determine the maximum compression of the spring. Report your answer in meters, but only enter the numerical value.
A 35.0g bullet traveling at 325.0 m/s strikes and becomes embedded in a 544 g block of wood that is sitting on a horizontal table top. b. Instead of using your answer from part a, assume the block with the bullet in it is moving at 25.0m/s immediately after the collision. If the block with the bullet in it slides across a 14.60m region where the coefficient of kinetic friction is 0.750 and then slides across a frictionless region and encounters a spring with a spring constant of 900 N/m, determine the maximum compression of the spring. Report your answer in meters, but only enter the numerical value.
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A 35.0g bullet traveling at 325.0 m/s strikes and becomes embedded in a 544 g block of wood that is sitting on a horizontal table top.
b. Instead of using your answer from part a, assume the block with the bullet in it is moving at 25.0m/s immediately after the collision. If the block with the bullet in it slides across a 14.60m region where the coefficient of kinetic friction is 0.750 and then slides across a frictionless region and encounters a spring with a spring constant of 900 N/m, determine the maximum compression of the spring. Report your answer in meters, but only enter the numerical value.
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