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Question

A particle of mass m and charge q enters with velocity v0 perpendicular to a magnetic field B (coming out of the plane of the paper) as shown in the figure. It moves in the magnetic field for time t=πm4qB, and then enters into a constant electric field region. The electric and magnetic fields are present only in a rectangular region of thickness d. The length of rectangular region is l. The particle enters parallel to and grazing the side RQ and leaves the region at P.
Given : v0=(2+1)ms1.
EB=8 ms1,l=425v0 metres and mqB=45

Displacement of the particle in x-direction before it enters in the electric field is

A
35(2+12)m
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B
45(1+12)m
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C
45(132)m
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D
None of these
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Solution

The correct option is B 45(1+12)m
The trajectory of particle before it enters the region of electric field can be shown as
Consider a point C to be centre of the circular path followed by the particle.


Displacement of the particle in x direction = r cosθ
We know that t=πm4qb-----(1)
and mv2r=qvB
mω=qB
m×2πT=qB
T=2πmqB------(2)

On comparing (1) and (2) we get
t=T8
T3600
t36008=450
x=r cos450
x=r2

We know that r=mv0qB
x=mv0qB2

Further it is given that v0=(2+1) ms1 and mqB=45
x=45×(2+1)×12

x=45(1+12) m

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