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A spring block system is placed on a rou...

A spring block system is placed on a rough horizontal surface having coefficient of friciton `mu`. The spring is given initial elongation `3mumg//k` (where m=mass of block and k=spring constant) and the block is released from rest. For the subsequent motion, find

a. Initial acceleration of block
b. Maximum compression in spring
c. Maximum speed of the block

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a. From Newton's second law, we get
`ma=3mumg-mumgimpliesa=2mug`
b. From work energy principle
`W_(spring)+W_(spring)=0`
`1/2k(x_0^2-x_1^2)-mumg(x_1+x_0)=0`
`x_0-x_1=(2mumg)/(k)impliesx_1=(mumg)/(k)`
c. Speed will be maximum where net force is zero
`mumg=kx`
`implies x=(mumg)/(k)` (extension)
Now from work-energy principle, we have
`1/2k((mumg)/(k))^2(3^2-1^2)-(2mumg)/(k)(mumg)=1/2mv^2`
Solving we get, `v=2mugsqrt(m/k)`
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