Two metal strips, each of length, each ...

Two metal strips, each of length, each of length l, are clamped parallel to each other on a horizontal floor with a separation b between them. A wire of mass m line on them perpendicularly as shown in figure. A vertically upward magnetic field of strenght B exists in the space. The matal strips are smooth but the cofficient of freiction between the wire and the floor is `mu`. A current i is established when the switch S is closed at the instant `t=0`. Discuss the motion of the wire after the switch is closed. How far away from the strips will the wire reach?

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Verified by Experts

When current starts flowing in the wire, it experiences a force, F = Bib of constant magnitude.
Due to which it accelerates on the metal strips. Thereafter when wire falls on the floor, it retards due to friction and finally stops. Thus a`=F/m=(Bib)/m`.
The velocity gained by the wire on the strips
`v^(2)=0+2al=2(Bibl)/m`
Let x be the distance moved by the wire on the floor, its finaJ velocity becomes zero, and so
`0=v^(2)-2a.x` or `x=(v^(2))/(2a),` Here a.=`(mumg)/m=mug`
`thereforex=([(2Bibl)/m])/(2mug)=(Bibl)/(mumg)`

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