In compressed state, a spring 3.00 meters long hanging from the ceiling has a potential energy of 2.0 joules. If the entire potential energy is used to release a ball of mass 1.…

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asked Jul 27, 2019 41.5k views

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Jhakiz · Answer 1 · 2019-07-31T21:56:15+0000

The correct option is: Option (C) 2.0 Joules.

Step-by-step explanation:

According to law of conservation of Energy:

Initial Energy = Final Energy
KE(initial) + PE(initial) = KE(final) + PE(final) --- (1)

When in the compressed state:
KE(initial) = Initial Kinetic Energy = 0
PE(initial) = Initial Potential Energy = 2.0 J

At ground (since height is 0 with respect to ground)
KE(final) = Final Kinetic Energy
PE(final) = Final Potential Energy = 0.0 J

Plug all in (1):
(1) => KE(final) = 2.0 J (Option C)

In compressed state, a spring 3.00 meters long hanging from the ceiling has a potential energy of 2.0 joules. If the entire potential energy is used to release a ball of mass 1.…

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