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A proton moving with a constant velocity...

A proton moving with a constant velocity passes through a region of space without any changing its velocity. If `E` and `B` represent the electric and magnetic fields, respectively. Then, this region of space may have

A

E=0 and B=0

B

`E=0` and `B!=0`

C

`E!=0` and `B=0`

D

`E!=0` and `B!=0`

Text Solution

Verified by Experts

The correct Answer is:
A, B, D
Since there is no change of velocity there may be the following three cases :
I. Electric and magnetic fields cancel each other i.e. `qE=q(barvxxbarB)`, so that the net force exerted =0, in the case `E!=0,B!=0` but vel. Remains constant.
II. If `E=0, B!=0`, and if the dir. of magnetic field is `||` to the dir. of velocity then also the force on particle =0 so no change in velocity (i.e. `V||B` so `q(barvxxbarB)=0`.
III. If `E=0,B=0`, then no force acts on the particle and particle’s velocity remains constant.
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