A proton is projected through a perpendicular uniform electric field as shown. The region of the electric field is 12cm long as shown. The distance between the upper and lower plates is 6.78mm. The proton starts at the vertical midpoint with an initial horizontal speed of 8.29 x 10¹ m/s. Determine the magnitude of the maximum electric field for which the proton can make it through without hitting the lower plate (in N/C). 1,030 12.0 cm- 33.7311 margin of error+/- 1%
A proton is projected through a perpendicular uniform electric field as shown. The region of the electric field is 12cm long as shown. The distance between the upper and lower plates is 6.78mm. The proton starts at the vertical midpoint with an initial horizontal speed of 8.29 x 10¹ m/s. Determine the magnitude of the maximum electric field for which the proton can make it through without hitting the lower plate (in N/C). 1,030 12.0 cm- 33.7311 margin of error+/- 1%
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter19: Electric Forces And Electric Fields
Section: Chapter Questions
Problem 31P
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A proton is projected through a perpendicular uniform electric field as shown. The region of the electric field is 12cm long as shown. The distance between the upper and lower plates is 6.78mm. The proton starts at the vertical midpoint with an initial horizontal speed of 8.29 ×10*m/s. Determine the magnitude of the maximum electric field for which the proton can make it through without hitting the lower plate (in
N/C).
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ct Answer
A proton is projected through a perpendicular uniform electric field as
shown. The region of the electric field is 12cm long as shown. The
distance between the upper and lower plates is 6.78mm. The proton
starts at the vertical midpoint with an initial horizontal speed of 8.29
x 10¹ m/s. Determine the magnitude of the maximum electric field for
which the proton can make it through without hitting the lower plate (in
N/C).
1,030
12.0 cm-
d
33.7311 margin of error +/- 1%
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