Answer to Question #258870 in Electricity and Magnetism for K-Lo

Let us determine the acceleration of the electron perpendicular to its initial motion. The electric force is "F = eE" and the acceleration is "a = \\dfrac{eE}{m}." The electron is initially at the distance "s = d\/2" from the plate, let us calculate the time interval needed to move at such a distance.

"s = \\dfrac{at^2}{2}\\,, \\;\\;\\; t = \\sqrt{\\dfrac{2s}{a}} = \\sqrt{\\dfrac{d}{a}} = \\sqrt{\\dfrac{md}{eE}}" .

"t = \\sqrt{\\dfrac{9.1\\cdot10^{-31}\\,\\mathrm{kg}\\cdot 4\\cdot10^{-2}\\,\\mathrm{m}}{1.6\\cdot10^{-19}\\,\\mathrm{C}\\cdot3\\cdot10^3\\,\\mathrm{N\/C}}} = 8.7\\cdot10^{-9}\\,\\mathrm{s}."

The distance travelled is "vt = 2\\cdot10^6\\,\\mathrm{m\/s}\\cdot 8.7\\cdot10^{-9}\\,\\mathrm{s} = 0.0174\\,\\mathrm{m}."