E₁ E₂ x=3cm (a) Calculate the electric field E, due to Q₁ at x = 3 cm. E₁: X N/C (b) Calculate the electric field E₂ due to Q₂ at x = 3 cm. E₂: XVN/C (c) Calculate the net electric field at x = 3 cm due to Q₁ and Q₂. Enet XVN/C Hint: Don't forget the sign of the electric fields.
E₁ E₂ x=3cm (a) Calculate the electric field E, due to Q₁ at x = 3 cm. E₁: X N/C (b) Calculate the electric field E₂ due to Q₂ at x = 3 cm. E₂: XVN/C (c) Calculate the net electric field at x = 3 cm due to Q₁ and Q₂. Enet XVN/C Hint: Don't forget the sign of the electric fields.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:1. In the figure below, Q₁ (-6 µC) by Q₂ (2 µC) are shown.
Use k=9x10⁹ Nm²/C².
Q1
x=0
Q2
x=3cm x 4cm
X
Using Part 1, the electric field due to Q₁ and Q₂ at x = 3 cm should have looked like this. Q₂ is closer
to the point x=3 cm compared to Q₁. Therefore, |E₂| > |E₁|. Both fields point in the negative x-
direction.
E₁
E₂ x=3cm
(a) Calculate the electric field E₁ due to Q₁ at x = 3 cm.
E₁:
N/C
(b) Calculate the electric field E₂ due to Q₂ at x = 3 cm.
E₂:
X
N/C
(c) Calculate the net electric field at x = 3 cm due to Q₁ and Q₂.
N/C
Enet
Hint: Don't forget the sign of the electric fields.
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