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Question
A bar magnet of moment of inertia of 500 gcm2 oscillates with a time period of 3.142 seconds in a horizontal plane. What is its magnetic moment if the horizontal component of earth’s magnetic field is 4 × 10−5T?
Numerical
Solution
Given:
- Moment of inertia: I = 500 g cm² = 500 × 10−7
- Time period: T = 3.142 s
- Horizontal component of Earth's magnetic field: B = 4 × 10−5
Calculation:
M = `(4pi^2 I)/(T^2B)`
M = `(4 xx (500 xx 10^-7))/(4 xx 10^-5)`
M = `(2000 xx 10^-7)/(4 xx 10^-5)`
M = `2000/4 xx 10^-2`
M = 500 × 10−2
M = 5 A m2
This is the required magnetic moment of the bar magnet.
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