An electron is accelerated inside a parallel plate capacitor. The electron leaves the negative plate with a negligible initial velocity and then after the acceleration it hits the positive plate with a final velocity B. The distance between the plates is 11.6 cm, and the voltage difference is 101 kV. Determine the final velocity B of the electron using classical mechanics. (The rest mass of the electron is 9.11x10-31 kg, the rest energy of the electron is 511 kev.) Tries 0/12 Submit Answer What is the final velocity B of the electron if you use relativistic mechanics? Submit Answer Tries 0/12

An electron is accelerated inside a parallel plate capacitor. The electron leaves the negative plate with a negligible initial velocity and then after the acceleration it hits the positive plate with a final velocity B. The distance between the plates is 11.6 cm, and the voltage difference is 101 kV. Determine the final velocity B of the electron using classical mechanics. (The rest mass of the electron is 9.11x10-31 kg, the rest energy of the electron is 511 kev.) Tries 0/12 Submit Answer What is the final velocity B of the electron if you use relativistic mechanics? Submit Answer Tries 0/12

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An electron is accelerated inside a parallel plate capacitor. The electron leaves the negative plate with a negligible initial velocity and then after the acceleration it
hits the positive plate with a final velocity B. The distance between the plates is 11.6 cm, and the voltage difference is 101 kv. Determine the final velocity B of the
electron using classical mechanics. (The rest mass of the electron is 9.11x10-31 kg, the rest energy of the electron is 511 kev.)
Tries 0/12
Submit Answer
What is the final velocity B of the electron if you use relativistic mechanics?
Submit Answer Tries 0/12

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