A uniform external electric field points to the right. An electron ( 9.11 E[-31]kg; qe -1.602 E[–19]C) is place in the field and 100, 000m/s. me fired to the right at v¡ a. Draw a picture of the situation b. The electron will eventually come to a stop. What is the change in potential between the electron's starting point and its stopping point?
A uniform external electric field points to the right. An electron ( 9.11 E[-31]kg; qe -1.602 E[–19]C) is place in the field and 100, 000m/s. me fired to the right at v¡ a. Draw a picture of the situation b. The electron will eventually come to a stop. What is the change in potential between the electron's starting point and its stopping point?
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![A uniform external electric field points to the right. An electron (
me = 9.11E[-31]kg; qe = –1.602 E[–19]C) is place in the field and
fired to the right at v¡
100, 000m/s.
a. Draw a picture of the situation
b. The electron will eventually come to a stop. What is the change in
potential between the electron's starting point and its stopping
point?
Remember to submit a pdf of your work on this problem to the Moodle
assignment listed in the instructions. Also, answer True for this question.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F805df41e-b889-4c16-a267-318b4eb3cf21%2Fbdaa53c8-a551-4560-a99e-fe53edf5aaa1%2Fdmgngcc_processed.png&w=3840&q=75)
Transcribed Image Text:A uniform external electric field points to the right. An electron (
me = 9.11E[-31]kg; qe = –1.602 E[–19]C) is place in the field and
fired to the right at v¡
100, 000m/s.
a. Draw a picture of the situation
b. The electron will eventually come to a stop. What is the change in
potential between the electron's starting point and its stopping
point?
Remember to submit a pdf of your work on this problem to the Moodle
assignment listed in the instructions. Also, answer True for this question.
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