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A particle having a charge of 100 mu C a...

A particle having a charge of `100 mu C` and a mass of 10mg is projected in a uniform magnetic field of 25m T with a speed of `10ms^(-1)`. If the velocity is perpendicular to the magnetic field , how long will it take for the particle to come back to its original position for the first time after being projected.

Text Solution

Verified by Experts

The particle move along a circle and returns
to its original position after completing to circle, that
is after one time period. The time period is
`T= (2pim)/(qB)`
`= (2pi xx (10X10^(-6)kg))/(100xx10^(-6)C) xx(25xx10^(-3) T) = 25s.`
If the velocity of the charge is not perpendicular to
the magnetic field, we can break the velocity in two
components- `v_||,` parallel to the field and `v_|_,`
perpendicular to the field. the component `v_11` remains
unchanged as the force `vec quX vec B` is perpendicular to it . in
the perpendicular to the field, the particle traces
a circle of radius `r=(mv_|_)/(qB)` as given by equation . The
resultant path is a helix .
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