Three charged particles are at the corners of an equilateral triangle as shown in the figure below. (Let q = 3.00 μC, and L = 0.550 m.) 7.00 με 60.0⁰ 9 L -4.00 μC @ (a) Calculate the electric field at the position of charge q due to the 7.00-μC and -4.00-μC charges. 714 X Once you calculate the magnitude of the field contribution from each charge you need to add these as vectors. kN/C Î + 277 Think carefully about the direction of the field due to the 7.00-μC charge. kN/C ĵ (b) Use your answer to part (a) to determine the force on charge q. 4.46 X If you know the electric field at a particular point, how do you find the force that acts on a charge at that point? mNÎ + x mN Ĵ

Three charged particles are at the corners of an equilateral triangle as shown in the figure below. (Let q = 3.00 μC, and L = 0.550 m.) 7.00 με 60.0⁰ 9 L -4.00 μC @ (a) Calculate the electric field at the position of charge q due to the 7.00-μC and -4.00-μC charges. 714 X Once you calculate the magnitude of the field contribution from each charge you need to add these as vectors. kN/C Î + 277 Think carefully about the direction of the field due to the 7.00-μC charge. kN/C ĵ (b) Use your answer to part (a) to determine the force on charge q. 4.46 X If you know the electric field at a particular point, how do you find the force that acts on a charge at that point? mNÎ + x mN Ĵ

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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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.

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Three charged particles are at the corners of an equilateral triangle as shown in the figure below. (Let q = 3.00 μC, and L = 0.550 m.)
7.00 με
60.0⁰
9
L
-4.00 μC @
(a) Calculate the electric field at the position of charge q due to the 7.00-μC and -4.00-μC charges.
714
X
Once you calculate the magnitude of the field contribution from each charge you need to add these as vectors. kN/C Î + 277
Think carefully about the direction of the field due to the 7.00-μC charge. kN/C ĵ
(b) Use your answer to part (a) to determine the force on charge q.
4.46
X
If you know the electric field at a particular point, how do you find the force that acts on a charge at that point? mNÎ +
x
mN Ĵ

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