Suppose an electron traveling with speed v0v0 = 1.10×107 m/sm/s enters a uniform electric field E⃗ E→, which is at right angles to v⃗ 0v→0 as shown in the figure.(Figure 1) At what angle will the electrons leave the uniform electric field at the end of the parallel plates (point P in the figure)? Assume the plates are 4.3 cmcm long and EE = 5.6×103 N/CN/C . Ignore fringing of the field.
Suppose an electron traveling with speed v0v0 = 1.10×107 m/sm/s enters a uniform electric field E⃗ E→, which is at right angles to v⃗ 0v→0 as shown in the figure.(Figure 1) At what angle will the electrons leave the uniform electric field at the end of the parallel plates (point P in the figure)? Assume the plates are 4.3 cmcm long and EE = 5.6×103 N/CN/C . Ignore fringing of the field.
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter18: Electric Charge And Electric Field
Section: Chapter Questions
Problem 32PE: (a) Find the direction and magnitude of an electric field that exerts a 4.801017 N westward force on...
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Suppose an electron traveling with speed v0v0 = 1.10×107 m/sm/s enters a uniform electric field E⃗ E→, which is at right angles to v⃗ 0v→0 as shown in the figure.(Figure 1)
At what angle will the electrons leave the uniform electric field at the end of the parallel plates (point P in the figure)? Assume the plates are 4.3 cmcm long and EE = 5.6×103 N/CN/C . Ignore fringing of the field.
Transcribed Image Text:Constants | Periodic Table
A proton is released in a uniform electric field,
and it experiences an electric force of
2.31x10-14
N toward the south.
Part A
What is the magnitude of the electric field?
?
a
X|
х.10п
E =
N/C
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