7. Pull the required charges to obtain the arrangements shown below (one at the time). Use the superposition principle and: a. Draw the net electric field at the position of the E-field sensor. b. Write an expression for the net electric field at the position of the E-field sensor (show all your work). c. Find the magnitude and direction of the net electric field at the position of the E-field sensor (click on "show numbers" and verify your answers Note all charges are fixed at the grid, and1 box = 0.1 m.

7. Pull the required charges to obtain the arrangements shown below (one at the time). Use the superposition principle and: a. Draw the net electric field at the position of the E-field sensor. b. Write an expression for the net electric field at the position of the E-field sensor (show all your work). c. Find the magnitude and direction of the net electric field at the position of the E-field sensor (click on "show numbers" and verify your answers Note all charges are fixed at the grid, and1 box = 0.1 m.

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7. Pull the required charges to obtain the arrangements shown below (one at the time).
Use the superposition principle and:
a. Draw the net electric field at the position of the E-field sensor.
b. Write an expression for the net electric field at the position of the E-field sensor
(show all your work).
c. Find the magnitude and direction of the net electric field at the position of the
E-field sensor (click on "show numbers" and verify your answers
Note all charges are fixed at the grid, and 1 box = 0.1 m.

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Follow-up Question

eu 8. Pull the required charges to obtain the arrangements shown below (one at the time). Use
the superposition principle and:
13
a. Draw the net electric field at the position of the E-field sensor.
b.
Write an expression for the net electric field at the position of the E-field sensor
(show all your work).
c.
Find the magnitude and direction of the net electric field at the position of the E-field
sensor (click on "show numbers" and verify your answers
Note all charges are fixed at the grid, and 1 box = 0.1 m.
0
+
+
+

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