saharraolson535
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1.
The ___________ energy in a mechanical system is determined by adding the potential and kinetic energy together.


total
massive
2.
The initial ___________ energy is equal to zero because the starting point is set at zero height to make things easier.


kinetic
potential
3.
In the example, the final kinetic energy is determined to be ___________ because at the peak height, the ball instantaneously stops.


positive
zero
negative
4.
In this system, potential and kinetic energy are ________________ proportional.


inversely
directly

Respuesta :

xero099

Answer:

1) total, 2) potential, 3) zero, 4) inversely.

Explanation:

1) The total energy in a mechanical system is determined by adding the potential and kinetic energy together.

2) The initial potential energy is equal to zero because the starting point is set at zero height to make things easier.

3) In the example, the final kinetic energy is determined to be zero because at the peak height, the ball instantaneously stops.

4) In this system, potential and kinetic energy are inversely proportional.

The system has an energy that can be conserved in the system, and when work is performed, the energy has been converted to working energy.

The following sentences can be completed as:

  • The total energy in a mechanical system is determined by adding the potential and kinetic energy together.

Total energy = Potential energy + Kinetic energy

  • The initial Kinetic energy is equal to zero because the starting point is set at zero height to make things easier.

  • In the example, the final kinetic energy is determined to be zero because, at the peak height, the ball instantaneously stops.

  • In this system, potential and kinetic energy are inversely proportional.

For more information about kinetic and potential energy, refer to the link:

https://brainly.com/question/22228414

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