A small massive ball of mass 0.36 kg is launched straight up from a tube using an ideal spring. The spring has spring constant k = 131 N/m and relaxed length of LO = 0.91 meters. The spring was initially compressed to a length of L = 0.04 meters, and the ball was launched to a height of h = 1.47 meters above the top of the spring. Find the velocity of the ball at height h in units of meters per second. Retain your answer to two decimal places. before after L m Lo m h
A small massive ball of mass 0.36 kg is launched straight up from a tube using an ideal spring. The spring has spring constant k = 131 N/m and relaxed length of LO = 0.91 meters. The spring was initially compressed to a length of L = 0.04 meters, and the ball was launched to a height of h = 1.47 meters above the top of the spring. Find the velocity of the ball at height h in units of meters per second. Retain your answer to two decimal places. before after L m Lo m h
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Transcribed Image Text:A small massive ball of mass 0.36 kg is launched straight up from a tube using an ideal spring. The spring has spring constant k
= 131 N/m and relaxed length of LO = 0.91 meters. The spring was initially compressed to a length of L = 0.04 meters, and the
ball was launched to a height of h = 1.47 meters above the top of the spring. Find the velocity of the ball at height h in units of
meters per second. Retain your answer to two decimal places.
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after
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