1) What is the value of e/m for a particle that moves in a circle
of radius 7.0 mm in a 0.85 T magnetic field. In a separate experiment
it was found that a crossed 296 V/m electric field would make the path
straight.
Answer: 5.85 × 10^4
But that's not what I got. I did this:
mass of electron m = 9.1x10^-31
charge on electron q = 1.6x10^-19
I used qvB = (mv^2)/r
qB = (mv)/r
q/m = (v)/(rB)
q/m = (296)/[(7x10^-3)(0.85)]
q/m = 4.97x10^4
What did i do wrong?
2) The beam of elctrons goes undeflected when passing through crossed electric and magnetic fields of magnitude 1.39x10^4 V/m and 2.95x10^-3 T, respectively. What is the radius of the electron orbit, in mm, if the electric field is turned off?
Answer: 9.09
qvB = mv^2/R
qB = (mv)/R
R = (mv)/(qB)
R = [(9.1x10^-31)(1.39x10^4]/[(1.6x10^-19)(2...
= (1.2649x10^-26)/(4.72x10^-22) = 2.68x10^-5
= 2.68E-5
= 2.68E-2 mm
But that's not the answer.
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