q = -1.60 × 10-19 C and mass m = 9.11 × 10-³1 kg) has an initial speed Vo = 2.80 x 107 m/sec. The electron enters midway between two horizontal plates of length L = 0.0650 m. The distance between the two plates is d = 0.0130 m and the potential different between the two plates is 250 V. Since the electric field between the two plates is constant, the electric field can be found with the equation E = AV/d. You may ignore gravity. L Vo d + + + + + + + + Problem 6: When the electron is between the two plates, what is the vertical acceleration of the electron? a. 1.38 x 1015 m b. 3.38 x 1015 m d. 7.38 x 1015 m sec² sec² sec² C. 5.38 x 1015 m sec²
q = -1.60 × 10-19 C and mass m = 9.11 × 10-³1 kg) has an initial speed Vo = 2.80 x 107 m/sec. The electron enters midway between two horizontal plates of length L = 0.0650 m. The distance between the two plates is d = 0.0130 m and the potential different between the two plates is 250 V. Since the electric field between the two plates is constant, the electric field can be found with the equation E = AV/d. You may ignore gravity. L Vo d + + + + + + + + Problem 6: When the electron is between the two plates, what is the vertical acceleration of the electron? a. 1.38 x 1015 m b. 3.38 x 1015 m d. 7.38 x 1015 m sec² sec² sec² C. 5.38 x 1015 m sec²
Physics for Scientists and Engineers
10th Edition
ISBN:9781337553278
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter24: Electric Potential
Section: Chapter Questions
Problem 2P: (a) Find the electric potential difference Ve required to stop an electron (called a stopping...
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