What Is Kinetic Energy? Explained Simply

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Discussion Overview

The discussion revolves around the concept of kinetic energy, exploring its definition, relationship with potential energy, and implications in classical and relativistic contexts. Participants provide various perspectives on its nature and significance in physics.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant questions the necessity of kinetic energy as a concept, suggesting it is an invention to quantify motion alongside potential energy.
  • Another participant defines kinetic energy as the capacity to do work, emphasizing its role in applying force over a distance, illustrated by the example of a bullet.
  • A different viewpoint explains kinetic energy in terms of work done to bring a moving object to rest, linking it to potential energy in scenarios like a ball thrown vertically.
  • Concerns are raised about the accuracy of certain statements regarding the constancy of energy, particularly in the context of a ball rolling on a flat surface.
  • One participant reiterates the distinction between kinetic and potential energy, providing an example of a soccer ball transitioning from potential to kinetic energy when released.

Areas of Agreement / Disagreement

Participants express differing views on the definition and implications of kinetic energy, with no consensus reached on its conceptual necessity or the accuracy of certain claims. Multiple competing perspectives remain evident throughout the discussion.

Contextual Notes

Some statements rely on specific interpretations of energy and motion, and there are unresolved questions about the definitions and relationships between kinetic and potential energy. The discussion also touches on relativistic effects, which complicate the understanding of kinetic energy.

yaseen shah
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would anyone deeply tell me what is kinetic energy.
 
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I think kinetic energy is something you invent to have a number - instead of the vectorial momentum - which together with the invention potential energy is constant over time.

At classically speaking it seems to be so. More answers could come from special relativity.
 
Energy is the capacity to do work, and work is force times distance. Kinetic energy is the capacity that something has to apply a force over a distance by slowing down. For example, a bullet is going very fast and can hit a target and decelerate rapidly thereby applying a large force over some distance.
 
You can get some insight into KE from an introductory physics text which derives it from
W = Fd = max...a change in velocity of a mass times a distance traveled.

the KE of a body in motion is equal to the work it can do as it is brought to rest...so it's based on a useful, convenient definition.

For a deeper understanding, check the relationship with potential energy (PE) because in some instances they are equal in magnitude and opposite in sign...as in throwing a ball vertically in the air for example...when the decreasing velocity (decreasing KE) is replaced by an equal increase in magnitude of PE as the ball rises. Things reverse as it falls.

In relativity, things get more complex because each inertial (constant velocity) observer measures the apparent velocity of an object differently...so each thinks (correctly) the object has a different KE.

Parts of the Wikipedia write up on KINETIC ENERGY are easy to understand; some are opaque.
http://en.wikipedia.org/wiki/Kinetic_energy

from a post above: "...which together with the invention potential energy is constant over time... not sure exactly what this means, but in general it is not accurate.; see my example where this is true...with regard to a ball rolling on a flat surface, it is NOT.
 
Last edited:
yaseen shah said:
would anyone deeply tell me what is kinetic energy.

It's the energy associated with motion, as opposed to potential energy, which is associated with position. For example, if you're standing still holding a soccer ball in your hands, the ball has potential energy. In other words, it's got the "potential" to do something (to fall to the ground). Once you release the ball, the ball's potential energy is converted into kinetic energy since the ball is moving under the influence of gravity.
 

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