Discover the Relationship between Kinetic Energy and Velocity - FAQs Answered

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Homework Help Overview

The discussion revolves around the relationship between kinetic energy and velocity, specifically exploring how changes in kinetic energy affect velocity when mass is held constant.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants are attempting to understand the mathematical relationship between kinetic energy and velocity, questioning how doubling kinetic energy influences velocity. Some express confusion about the implications of this relationship, while others seek to clarify the underlying equations and principles.

Discussion Status

The conversation is ongoing, with participants sharing their thoughts and reasoning. Some have provided insights into the mathematical expressions for kinetic energy and the role of force and distance in this context. There is no explicit consensus yet, but various interpretations and approaches are being explored.

Contextual Notes

Participants are encouraged to show their work and provide mathematical expressions, indicating a focus on understanding the derivation of relationships rather than simply stating conclusions. There is an emphasis on the need for clarity regarding assumptions about mass and the application of force.

Damien20
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If the kinetic Energy of an object is doubled, by what factor is the velocity increased ?
 
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Damien20 said:
If the kinetic Energy of an object is doubled, by what factor is the velocity increased ?
You have to show your work first. Can you tell us how you think velocity is related to kinetic energy?

AM
 
Well I know if the mass constant, and if the velocity is increased or decreased then so does the KE. I can wrap my head around that much, but If the KE is doubled it makes me want to say the velocity and mass doubles. what you do to one side of the equation you must do to the otherside, but for some reason that just doesn't feel right.
 
Damien20 said:
Well I know if the mass constant, and if the velocity is increased or decreased then so does the KE. I can wrap my head around that much, but If the KE is doubled it makes me want to say the velocity and mass doubles. what you do to one side of the equation you must do to the otherside, but for some reason that just doesn't feel right.
You have to give us a mathematical expression for kinetic energy.

If I apply a force to a stationary mass, m, such that F = ma = m\Delta v/\Delta t for a time \Delta t what is the final speed? (ie. what is \Delta v?) How far a distance have I applied that force in that time? (call that d1). The force times that distance d1 is the work done and that is equal to the kinetic energy of the mass (assuming no friction). The energy is proportional to the distance over which I apply the force, not the time over which I apply it. Now if I apply the force for a longer time such that \Delta v is twice as large, over what distance do I apply the force? (d2). The ratio of d2 to d1 gives you the ratio of kinetic energies.

AM
 

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