Two large conducting parallel plates A and B are separated by 2.4 m. A uniform field of 1500 V/m, in the positive x-direction, is produced by charges on the plates. The center plane at x = 0.00 m is an equipotential surface on which V = 0. An electron is projected from x = 0.00 m, with an initial velocity of 1.0 x 107 m/s perpendicular to the plates in the positive x-direction, as shown in the figure. What is the kinetic energy of the electron as it reaches plate A? (e = 1.60 × 1019 C, mej = 9.11 x 1031 kg)

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Two large conducting parallel plates A and B are separated by 2.4 m. A uniform field of 1500 V/m, in
the positive x-direction, is produced by charges on the plates. The center plane at x = 0.00 m is an
equipotential surface on which V = 0. An electron is projected from x = 0.00 m, with an initial
velocity of 1.0 x 107 m/s perpendicular to the plates in the positive x-direction, as shown in the
figure. What is the kinetic energy of the electron as it reaches plate A? (e = 1.60 × 10-19 C, mel = 9.11
x 10-31 kg)
A
B
E = 1500 V/m
x = -1.2 m
x = +1.2 m
x= 0.00 m
Transcribed Image Text:Two large conducting parallel plates A and B are separated by 2.4 m. A uniform field of 1500 V/m, in the positive x-direction, is produced by charges on the plates. The center plane at x = 0.00 m is an equipotential surface on which V = 0. An electron is projected from x = 0.00 m, with an initial velocity of 1.0 x 107 m/s perpendicular to the plates in the positive x-direction, as shown in the figure. What is the kinetic energy of the electron as it reaches plate A? (e = 1.60 × 10-19 C, mel = 9.11 x 10-31 kg) A B E = 1500 V/m x = -1.2 m x = +1.2 m x= 0.00 m
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