A 1.00-kilogram ball is dropped from the top of a building. just before striking the ground, the ball's speed is 12.0 meters per second. what was the ball's gravitational potential energy, relative to the ground, at the instant it was dropped? [neglect friction.]

during the fall, the potential energy stored in the ball is converted into kinetic energy.
Thus,
PE = KE before hitting the ground
= 1/2 • mv^2
= 1/2 • 1 • 12^2
= 72J

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abidemiokin abidemiokin · Answer 2 · 2021-12-09T14:08:12+01:00

The ball's gravitational potential energy, relative to the ground, at the instant it was dropped is 72 Joules

During the fall, the potential energy of the ball is converted to kinetic energy (energy possessed by a body by virtue of ist motion).

The formula for calculating the kinetic energy of the ball is expressed as:

[tex]PE = KE = \frac{1}{2}mv^2[/tex]

m is the mass of the ball = 1.0kg

v is the ball's speed = 12m/s

Substitute into the formula:

[tex]GPE =\frac{1}{2}(1)(12)^2\\GPE=\frac{144}{2}\\GPE=72Joules[/tex]

Hence the ball's gravitational potential energy, relative to the ground, at the instant it was dropped is 72 Joules

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