In an electron microscope, there is an electron gun that contains two charged me

Question

In an electron microscope, there is an electron gun that contains two charged metallic plates 3.00 cm apart. An electric force accelerates each electron in the beam from rest to 8.40% of the speed of light over this distance. (Ignore the effects of relativity in your calculations.)

(a) Determine the kinetic energy of the electron as it leaves the electron gun. Electrons carry this energy to a phosphorescent viewing screen where the microscope's image is formed, making it glow.

                                     J

(b) For an electron passing between the plates in the electron gun, determine the magnitude of the constant electric force acting on the electron.

                              N

(c) Determine the acceleration of the electron.

                              m/s^2

(d) Determine the time interval the electron spends between the plates.

                                          s

Explanation / Answer

v(i) =0, v(f) = [8.40/100] *3*10^8 = 2.52*10^(7) m/s
KE(final) = 0.5 m [v(f)^2 -0] = 2.889*10^(-16)
let potential difference between plates be = V
then V* e = increase in kinetic energy
e = 1.6*10^-19 C
------------------------------

2.889*10^(-16) = 1.6*10^(-19)*V

V = 1805 V
electric field = E = V/d where d= 3/100 meter where E = 1805*100/3 = 60196.5
--------------------------------
electric force = e E
----------------------------
acceleration (a) = F/m where m = mass of electron= 9.1*10^-31 kg
--------------------------------
time of flight (t) >>> check for direction or rectilinear motion vs weight
v(f) = v(i) + a *t

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