he acceleration of a particle in an electric field depends on q/m (the charge-to

Question

he acceleration of a particle in an electric field depends on q/m (the charge-to-mass ratio of the particle).
(a) Compute q/m for an electron.
C/kg

(b) What are the magnitude and direction of the acceleration of an electron in a uniform electric field that has a magnitude of 124 N/C?
magnitude m/s2

(c) Compute the time it takes for an electron placed at rest in a uniform electric field that has a magnitude of 124 N/C to reach a speed 0.0097c. (When the speed of an electron approaches the speed of light c, relativistic kinematics must be used to calculate its motion, but at speeds of .01c or less, nonrelativistic kinematics is sufficiently accurate for most purposes.)
µs

(d) How far does the electron travel in that time?
m

Explanation / Answer

a) 1.6*10^(-19)/9.1*10^(-31)=.1758 * 10^(12)

b) charge * electic field =ma

acceleration= 21.79* 10^(12) m/s^2 and opposite to the direction of electric field

c) velocity=acceleration*time

time=0.13349 s

d) distance= 1/2 acceleration* time^2=.1941 m

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