The time period of a charged particle u...

The time period of a charged particle undergoing a circular motion in a uniform magnetic field is independent of its

A

speed

B

mass

C

charge

D

Magnetic induction

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The correct Answer is:

A

In a circular motion of a uniform magnetic field, the necessary centripetal force to the charged particle is proved by the magnetic force.
i.e. `(mv^(2))/r=qvB` or `r=(mv)/(qB)`
Thus the time period T is `T n=(2pir)/v=(2pi)/v((mv)/(qB))=(2pim)/(qB)` So, T is independent of its speed.

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