A 20 m long spring is attached to the wall When puled horizontaly with a force of 100 N. the spring stretches to s length of 30 m. MAM 100 N a) Calculete the value of the spring constant. 333.34/m The same spring is placed vertically on the ground and a 10 kg block is held 15 m above the spring The block is dropped, hits the spring, and compresses it. start 0.15 m 0+ -0 max compression bl Calculate the maximum compression of the spring
A 20 m long spring is attached to the wall When puled horizontaly with a force of 100 N. the spring stretches to s length of 30 m. MAM 100 N a) Calculete the value of the spring constant. 333.34/m The same spring is placed vertically on the ground and a 10 kg block is held 15 m above the spring The block is dropped, hits the spring, and compresses it. start 0.15 m 0+ -0 max compression bl Calculate the maximum compression of the spring
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:A 20 m long spring is attached to the wall When pulled horizontaly with a force
of 100 N. the spring stretches to a length of 30m.
-30 m-
100 N
a) Calculate the value of the spring constant.
333.34n/m
The same spring is placed vertically on the ground and a 10 kg block is held 15 m
above the spring. The block is dropped, hits the spring, and compresses it.
start
0.15 m
0+ -0
max
compression
bị Calculate the maximum oompression of the spring."
Expert Solution
Step 1 :Introduction
The force provided to stretch the spring is , which is calculated by using the formula , where k is the spring constant and is the stretched length .
According to the law of conservation of energy , energy can neither be created nor destroyed ,but can only be converted from one form to another . The gravitational potential energy will be equal to the spring potential energy , which is , , where is the mass of block , is the acceleration due to gravity and is the height .
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