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A dog of mass 10 kg is standing on a fla...

A dog of mass 10 kg is standing on a flat 10 m long boat so that it is 20 m meters from the shore. It walks 8 m on the boat towards the shore and then stops. The mass of the boat is 40 kg and friction between the boat and the water surface is negligible. How far is the dog from the shore now ?

Text Solution

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Take boat and dog as a system. Initially, centre of mass of the system is at rest. Since no external force is acting on the system, hence centre of mass of the system will remain stationary.
Let initially distance of the centre of mass of the boat from the shore be x m. Then,
`x_(1.cm)=(40xx x+10xx20)/(40+10)m " "` ....(i)
where `x_(1.cm)=` distance of the C.M. of the system from the shore. Since dog moves towards the shore, for the centre of mass of the system to be at rest, the boat has to move away from the shore. Let distance moved by the boat be x.. Then.
`x_(2.cm)=(40(x+x.)+10(20-8+x.))/(40+10)`
As `x_(1.cm)=x_(2.cm)`
`rArr (40x+200)/(50)=(40(x+x.)+10(12+x.))/(50)`
`rArr 50x.=80rArr x.=1.6 m`
Hence distance of the dog from the shore is `(20-8+1.6)m=13.6 m`.
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