1.

A charged particle can be deflected by electric and magnetic filed both The electric forceoversetrarrF_(e) =qoversetrarrE and magnetic force oversetrarr(F_(m)) = oversetrarr(qv)xxoversetrarr(B) q = charge in coulomb, oversetrarrV is velocity in m//s oversetrarrE is electric filed strengh in N//C and B is magnetic field strength in tesla (T) If a moving charged particle enters simultaneous electric and magnetic field, the net force on the charged particle is oversetrarr(F) =q(oversetrarrE +oversetrarr(v) xx oversetrarrB) If oversetrarr(F) =0 the charged particle will move undeflected in simultaneous fields A charged particle moves in simultaneous electric field oversetrarr(E) and magnetic field oversetrarr(B) If the charged particle passes undeflected , then the value of electric field vectore oversetrarr(E) must be .

Answer»

`oversetrarr(E) =oversetrarrv XX oversetrarr(B)`
`oversetrarr(E) =-oversetrarrv xx oversetrarr(B)`
`oversetrarr(E) =oversetrarr(B)/oversetrarrv`
`oversetrarr(E) =oversetrarr(v)/OVERSETRARRB`

SOLUTION :N//A


Discussion

No Comment Found

Related InterviewSolutions