An electric field of strength E = 5000 N/C is directed along the +x-axis as shown. A electron is initially at rest at point B. Electron Charge = -1.6x10-19 C Proton Charge = +1.6x10-19 C What is the magnitude of the potential difference between point B and point A if the distance between these two points is 25 cm? DOV 125 V 250 V O1,250 V Submit Answer Tries 0/2 How much kinetic energy (in electron Volts) will the electron gain by moving to the higher potential at point A? 0 ev O2.0 x 10-16 eV -2.0 x 10-16 eV 1,250 eV Submit Answer Tries 0/2 How much kinetic energy (in electron Volts) would a proton gain by moving to a lower potential from point A to point B? 0 eV 020 x 10-16 ev

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Why Abortion is Immoral" Kaltura Medias • C E • A • B An electric field of strength E = 5000 N/C is directed along the +x-axis as shown. A electron is initially at rest at point B. Electron Charge = -1.6x10-19 C Proton Charge = +1.6x10-19 C What is the magnitude of the potential difference between point B and point A if the distance between these two points is 25 cm? OO V 125 V O250 V O1,250 V Submit Answer Tries 0/2 How much kinetic energy (in electron Volts) will the electron gain by moving to the higher potential at point A? 0 0 eV O2.0 x 10-16 ev O-2.0 x 10-16 eV O1,250 eV Submit Answer Tries 0/2 How much kinetic energy (in electron Volts) would a proton gain by moving to a lower potential from point A to point B? 00 eV O 2.0 x 10 16 eV -2.0 x 10-16 eV O1,250 eV