A straight wire AB of mass and length is suspended by a pair of flexible leads in uniform magnetic field of magnitude . The magnitude of the current required in the wire to remove the tension in the supporting leads is _____ A. (Take )
- A
- B
- C
- D
A straight wire AB of mass and length is suspended by a pair of flexible leads in uniform magnetic field of magnitude . The magnitude of the current required in the wire to remove the tension in the supporting leads is _____ A. (Take )
Correct answer:B
Standard Method
Given: mass of the wire , length , magnetic field , and .
Find: the current required so that the tension in the supporting leads becomes zero.
For equilibrium, the magnetic force on the wire must balance its weight.
The magnetic force is
The gravitational force is
Equating the two forces,
So,
Substitute the values,
Therefore, the required current is . The correct option is B.
Force Balance Interpretation
Given: the wire is suspended by flexible leads in a uniform magnetic field.
Find: the current at which the leads have no tension.
If the supporting leads have zero tension, they are no longer supporting the weight of the wire. Hence the upward magnetic force alone must equal the downward weight of the wire.
Thus use
Now convert all quantities into SI units before substitution:
Then,
Therefore, the current needed is .
Using mass as instead of converting to is incorrect because SI units are required in the formula. Always convert grams to kilograms before substituting.
Using the wire length as or directly in the equation is incorrect because must be in metres. Use .
Forgetting that zero tension means the magnetic force fully balances the weight leads to an incomplete force balance. Set , not magnetic force plus tension equals weight.
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