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The circuit in fig. consists of wires at...

The circuit in fig. consists of wires at the top and bottom and identical metal springs at the left and right sides.The wire at the bottom has a mass of 10.0g and is 5.00cm long. The wire is hanging as shown in the figure. The springes stretch 0.500 cm under the weight of the wire, and the circuit has a total resistance of `12.0Omega`. When a magnetic field is turned on the springes stretch an additional 0.300 cm.

From the above statements we can conclude that

A

the magnetic field is directed into the plane of page

B

the magnetic field is directed out of the page

C

The magnetic field is toward left in the plane of page

D

The magnetic field is toward right in the plane of page

Text Solution

Verified by Experts

The correct Answer is:
b
`I=epsilon/R=24/12=2A` M

`Magnetic force =IlB sin (pi/2)=2xx5xx10^-2xxB=B/10`
`2kx_1=mg, 2k=(mg)/(x_1) ` and
`2k(x_1+x_2)=mg+IlB`
`2kx_1+2kx_2=mg+IlB`
`(mg)/(x_1) x_2=IlB`
`10xx10^-3xx10xx0.3/0.5=B/10 implies B=600xx10^-3=0.6T`
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Knowledge Check

  • The circuit in fig. consists of wires at the top and bottom and identical metal springs at the left and right sides.The wire at the bottom has a mass of 10.0g and is 5.00cm long. The wire is hanging as shown in the figure. The springes stretch 0.500 cm under the weight of the wire, and the circuit has a total resistance of 12.0Omega . When a magnetic field is turned on the springes stretch an additional 0.300 cm. The magnitude of magnetic field is

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    `1.2T`
    B
    `6T`
    C
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    D
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  • A straight rod of mass m and lenth L is suspended from the identical spring as shwon in the figure The spring strectched by a distance of x_(0) due to the weight of the wire The circuit has total resistance Romega When the magnetic field perpendicular to the plane of the paper is switched on, springs are observed to extend further by the same distance The magnetic field strenght is

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    `2(mgR)/(LV)`
    B
    `(mgR)/(LV)`
    C
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    B
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