Relationship between force, energy and length
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Energy has the same magnitude as Work.
So, we are allowed to use work instead of energy.
Now,
Work = Force applied × Displacement × cos theta
As work = force
Thereofore you can write it as,
Enegy = Force Applied × × Displacement × cos theta (angle between force applied and the motion produced in a direction).
So, we are allowed to use work instead of energy.
Now,
Work = Force applied × Displacement × cos theta
As work = force
Thereofore you can write it as,
Enegy = Force Applied × × Displacement × cos theta (angle between force applied and the motion produced in a direction).
Answered by
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energy is needed for a force to do work.
So the amount of force done in a given distance equals the amount of energy used, which is work.
Work and energy are equal in magnitude.
So:
ForceForce×distance=Workdistance=Work
Work=EnergyWork=Energy
So
ForceForce×distance=Energy
a force is described as any influence that causes an object to undergo a change. Distance refers to how far an object travels over a period of time. The greater the force that is applied on an object the further distance that object will travel.
So the amount of force done in a given distance equals the amount of energy used, which is work.
Work and energy are equal in magnitude.
So:
ForceForce×distance=Workdistance=Work
Work=EnergyWork=Energy
So
ForceForce×distance=Energy
a force is described as any influence that causes an object to undergo a change. Distance refers to how far an object travels over a period of time. The greater the force that is applied on an object the further distance that object will travel.
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