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(B) The time period $T$ of an oscillating bar magnet in a magnetic field is given by the formula: $T = 2\pi \sqrt{\frac{I}{MB_H}}$.Here,$I$ is the mom

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$2 T$

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(B) The time period $T$ of an oscillating bar magnet in a magnetic field is given by the formula: $T = 2\pi \sqrt{\frac{I}{MB_H}}$.Here,$I$ is the moment of inertia of the bar magnet,$M$ is the magnetic moment,and $B_H$ is the horizontal component of the earth's magnetic field.For a rectangular bar magnet of mass $w$,length $L$,and breadth $b$,the moment of inertia is $I = \frac{w(L^2 + b^2)}{12}$.Since $I \propto w$,we can write $T \propto \sqrt{I} \propto \sqrt{w}$.If the mass $w$ is increased by a factor of $4$,the new time period $T'$ becomes $T' = T \sqrt{4} = 2T$.

$A$ bar magnet is oscillating in the earth's magnetic field with time period $T.$ If its mass is increased four times,then its time period will be

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