the velocity of a body moving in a straight line is increased by applying a constant force F for some distance in the resistance of the motions prove that the increase in the kinetic energy of the body is equal to the work done by the force on the body
Answers
∵ a force is applied
∴ velocity will increase
let the new velocity = v
initial velocity = u
mass of the object = m
acceleration = a
distance covered = d
∴ by 3rd eq. of motion
v² = u² + 2ad ........................ eq(i)
increase in the kinetic energy,
new KE - initial KE
= mv²/2 - mu²/2
= m(u² + 2ad)/2 - mu²/2 ........................................ {from eq.(i)}
=mu²/2 + mad - mu²/2
= mad
=Fd .............................................. (∵F=ma)
= work done by the force on the body .................................(∵work = Fd)
∴increase in the kinetic energy= work done by the force on the body
Answer:
Explanation:
We know that v2=u2+2as
And Work done =F×s for a constant force F.
Also we know that a =mF
v2−u2=2as
This gives s=2av2−u2
F=ma
We can write work done (W) by this force F as
W=ma(2av2−u2)=21mv2−21mu2=(K.E)f−(K.E)i