3.) A 2-kg block is dropped from a height of 1.5 m above the end of a vertical uncompressed spring, the force constant of which is 100 N/m. The block strikes the spring, compresses it, and then rebounds. a.) what is the potential energy of the block (with respect to the end of the spring) just before it is dropped? it descends on 1.00m b.) what is the kinetic energy of the block when it descends 1.0m? c .) what is the maximum compression of the spring
3.) A 2-kg block is dropped from a height of 1.5 m above the end of a vertical uncompressed spring, the force constant of which is 100 N/m. The block strikes the spring, compresses it, and then rebounds. a.) what is the potential energy of the block (with respect to the end of the spring) just before it is dropped? it descends on 1.00m b.) what is the kinetic energy of the block when it descends 1.0m? c .) what is the maximum compression of the spring
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter8: Potential Energy And Conservation Of Energy
Section: Chapter Questions
Problem 64P: A block of mass 500 g is attached to a spring of spring constant 80 N/m (see the following figure)....
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3.) A 2-kg block is dropped from a height of 1.5 m above the end of a vertical uncompressed spring, the force constant of which is 100 N/m. The block strikes the spring, compresses it, and then rebounds.
a.) what is the potential energy of the block (with respect to the end of the spring) just before it is dropped? it descends on 1.00m
b.) what is the kinetic energy of the block when it descends 1.0m?
c .) what is the maximum compression of the spring d .) How high from the uncompressed spring did the block rise as it rebounds?
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