A spring with constant 56 N/m is positioned so that is sits right below an object of mass 5.0 kg. The object starts at a height of 2.9 m above the spring and is released from rest. The object falls directly on top of the spring, compresses it and eventually comes to rest. What is the compression of the spring in meters at the bottom of the motion when the object comes to rest? (Use g = 9.8m/s2 and round answer to 1 decimal place.)
A spring with constant 56 N/m is positioned so that is sits right below an object of mass 5.0 kg. The object starts at a height of 2.9 m above the spring and is released from rest. The object falls directly on top of the spring, compresses it and eventually comes to rest. What is the compression of the spring in meters at the bottom of the motion when the object comes to rest? (Use g = 9.8m/s2 and round answer to 1 decimal place.)
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A spring with constant 56 N/m is positioned so that is sits right below an object of mass 5.0 kg. The object starts at a height of 2.9 m above the spring and is released from rest. The object falls directly on top of the spring, compresses it and eventually comes to rest. What is the compression of the spring in meters at the bottom of the motion when the object comes to rest? (Use g = 9.8m/s2 and round answer to 1 decimal place.)
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