Derive the formula kinetic energy having mass m and velocity v?
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Answer:1/2mv^2
Explanation:
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Derivation:
Let us consider an object of m which is at rest lying on a table.
Let A force F acts on the object which moves the object through a distance S.
The workdone=FxS
W=FnetXS-------(1)
Let the workdone on the object causes a change in its velocity from u to V and let a be the acceleration.
From Third equation of motion:
V²-u²=2as
s=V²-u²/2a----------(2)
By Newton's Second law:
F=ma------(3)
From equation (1), (2) and (3)
W=ma*(V²-u²/2a)\=(1/2)m(V²-u²)
As we assumed object at rest, u=0
W=(1/2)mV²
we know that the kinetic energy of a body moving with certain velocity is equal to workdone on the object to acquire that velocity from rest.
∴K.E=1/2 mV²
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