An electron is projected horizontally into a region of uniform electric field E = (+ 4.9 x 105, 0) N/C at time t = 0. The electron travels 7.5 cm as it momentarily comes to rest. Hints: Draw a diagram of the charge in the electric field. Draw the electric field, acceleration, and initial velocity vectors to help determine directions. Use the calculator notation "E" followed by the power in place of "10^" when entering very large or very small values. a. Determine the acceleration of the electron. Magnitude: a = m/s² Direction: Select an answer b. Determine the initial velocity of the electron. Magnitude: v = m/s Direction: Select an answer c. Determine the time the electron

An electron is projected horizontally into a region of uniform electric field E = (+ 4.9 x 105, 0) N/C at time t = 0. The electron travels 7.5 cm as it momentarily comes to rest. Hints: Draw a diagram of the charge in the electric field. Draw the electric field, acceleration, and initial velocity vectors to help determine directions. Use the calculator notation "E" followed by the power in place of "10^" when entering very large or very small values. a. Determine the acceleration of the electron. Magnitude: a = m/s² Direction: Select an answer b. Determine the initial velocity of the electron. Magnitude: v = m/s Direction: Select an answer c. Determine the time the electron

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Concept explainers

Electric Charges and Fields

One of the fundamental properties is the electromagnetic property. Charge cannot be destroyed by any process and this contributes formally to the law of charge conservation.

Question

Please show all work and do all parts.

An electron is projected horizontally into a region of uniform
electric field
$
E =
= ( + 4.9 x 105, 0) N/C at time t = 0. The electron travels 7.5
cm as it momentarily comes to rest.
4
Hints: Draw a diagram of the charge in the electric field. Draw
the electric field, acceleration, and initial velocity vectors to
help determine directions. Use the calculator notation "E"
followed by the power in place of "10^" when entering very
large or very small values.
a. Determine the acceleration of the electron.
Magnitude: a =
m/s²
Direction: Select an answer
b. Determine the initial velocity of the electron.
Magnitude: v =
m/s
Direction: Select an answer
c. Determine the time the electron traveled before coming to
rest.
t =
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