A slightly divergent beam of charged particles accelerated by a Potential difference V propogates from a point A along the axis of a solenoid. The beam is brought into focus at a distance l from the point A at two successive values of magnetic induction `B_1 and B_2.` Find the specific charge `q//m` of the particles.

A slightly divergent beam of charged particles accelerated by a Potent

1.	A slightly divergent beam of charged particles accelerated by a Potential difference V propogates from a point A along the axis of a solenoid. The beam is brought into focus at a distance l from the point A at two successive values of magnetic induction `B_1 and B_2.` Find the specific charge `q//m` of the particles.
Answer» Let us first calculate the velocity of the particles from the energy equation, `1/2mv^2=Vq implies v=sqrt((2Vq)/m)` Since the charged particles are slightly divergent, they will follow a helical path. Let `theta` be the small angle made by a particle with `B cos theta~=1` `:.` P(pitch of the particle)=`v_(\|\|)xxT` `=v cos thetaxx(2pim)/(qB)=(2pivm)/(qB)` Particles are focussed if l contains integral number of pitches. `l=np implies p=l//n= l, l//2, l//3,....` `:.` for two consecutive focussing (as B increases, p decrease) `l=(2pimv)/(qB_1) and l/2=(2pimv)/(qB_2)` or `B_1=(2pimv)/(ql) and B_2=(4pimv)/(ql)`, or `B_2-B_1=(2pimv)/(ql) or B_2-B_1=(2pim)/(ql)sqrt((2Vq)/m),` or `q/m=(8pi^2V)/(l^2(B_2-B_1)^2)`

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