A particle of mass m and charge q is projected with a velocity vo ina viscous medium, where a uniform and constant magnetic field of induction B exists everywhere in a direction perpendicular to the direction of projection of the particle. The force of viscous drag on the particle is given by the lawf=-bü, where b is a positive constant and ū is velocity of the particle. Find distance travelled by the particle during a time interval from the instant of projection until velocity vector turns by 27radians. As. a %3D muo
A particle of mass m and charge q is projected with a velocity vo ina viscous medium, where a uniform and constant magnetic field of induction B exists everywhere in a direction perpendicular to the direction of projection of the particle. The force of viscous drag on the particle is given by the lawf=-bü, where b is a positive constant and ū is velocity of the particle. Find distance travelled by the particle during a time interval from the instant of projection until velocity vector turns by 27radians. As. a %3D muo
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Transcribed Image Text:A particle of mass m and charge q is projected with a velocity uo in a
viscous medium, where a uniform and constant magnetic field of
induction B exists everywhere in a direction perpendicular to the
direction of projection of the particle. The force of viscous drag on the
particle is given by the law f = -bū, where b is a positive constant and
ū is velocity of the particle. Find distance travelled by the particle
during a time interval from the instant of projection until velocity vector
turns by 27 radians. As.
Soln in Page 14 -†S.
%3D
muo
[i- exp (-28b)
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