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A particle of mass m moves on a straight...

A particle of mass m moves on a straight line with its velocity varying with the distance travelled according to the equation `v=asqrtx`, where a is a constant. Find the total work done by all the forces during a displacement from `x=0 to x=d`.

A

(a) `(mk^4)/(t^2)`

B

(b) `(mk^4t^2)/(4)`

C

(c) `(mk^4t^2)/(8)`

D

(d) `(mk^4t^2)/(16)`

Text Solution

Verified by Experts

The correct Answer is:
C
Given `v=ksqrt(x)` or `(dx)/(dt)=ksqrtx` or `x^(-1/2)dx=kdt`
Integrating both sides, we get
`(x^(1/2))/(1/2)=kt+C` assuming `x(0)=0`
Therefore, `C=0`
`2sqrtx=ktimpliesx=(k^2t^2)/(4)` or `v=(k^2t)/(2)`
Therefore, work done,
`DeltaW=Increase i n KE`
`=1/2mv^2-1/2m(0)^2=1/2m[(k^2t)/(2)]^2=1/8mk^4t^2`
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