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Science Physics Introduction to Electrodynamics

Four particles (one of charge q , one of charge 3q , and two of charge − 2 q ) arc placed as shown in Fig. 3.31, each a distance a from the origin. Find a simple approximate formula for the potential, valid at points far from the origin. (Express your answer in spherical coordinates.)

Four particles (one of charge q , one of charge 3q , and two of charge − 2 q ) arc placed as shown in Fig. 3.31, each a distance a from the origin. Find a simple approximate formula for the potential, valid at points far from the origin. (Express your answer in spherical coordinates.)

Introduction to Electrodynamics

Introduction to Electrodynamics

4th Edition

ISBN: 9781108420419

Author: David J. Griffiths

Publisher: Cambridge University Press

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Chapter 3.4, Problem 3.29P

Four particles (one of charge q, one of charge 3q, and two of charge − 2 q ) arc placed as shown in Fig. 3.31, each a distance a from the origin. Find a simple approximate formula for the potential, valid at points far from the origin. (Express your answer in spherical coordinates.)

Chapter 3.4, Problem 3.29P, Four particles (one of charge q, one of charge 3q, and two of charge 2q ) arc placed as shown in

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Chapter 3.4, Problem 3.28P

Chapter 3.4, Problem 3.30P

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Chapter 3 Solutions

Introduction to Electrodynamics

Ch. 3.1 - Find the average potential over a spherical...Ch. 3.1 - Prob. 3.2P Ch. 3.1 - Prob. 3.3P Ch. 3.1 - Prob. 3.4P Ch. 3.1 - Prob. 3.5P Ch. 3.1 - Prob. 3.6P Ch. 3.2 - Find the force on the charge +q in Fig. 3.14....Ch. 3.2 - (a) Using the law of cosines, show that Eq. 3.17...Ch. 3.2 - In Ex. 3.2 we assumed that the conducting sphere...Ch. 3.2 - A uniform line charge is placed on an infinite...

Ch. 3.2 - Two semi-infinite grounded conducting planes meet...Ch. 3.2 - Prob. 3.12P Ch. 3.3 - Find the potential in the infinite slot of Ex. 3.3...Ch. 3.3 - Prob. 3.14P Ch. 3.3 - A rectangular pipe, running parallel to the z-axis...Ch. 3.3 - A cubical box (sides of length a) consists of five...Ch. 3.3 - Prob. 3.17P Ch. 3.3 - Prob. 3.18P Ch. 3.3 - Prob. 3.19P Ch. 3.3 - Suppose the potential V0() at the surface of a...Ch. 3.3 - Prob. 3.21P Ch. 3.3 - In Prob. 2.25, you found the potential on the axis...Ch. 3.3 - Prob. 3.23P Ch. 3.3 - Prob. 3.24P Ch. 3.3 - Find the potential outside an infinitely long...Ch. 3.3 - Prob. 3.26P Ch. 3.4 - A sphere of radius R, centered at the origin,...Ch. 3.4 - Prob. 3.28P Ch. 3.4 - Four particles (one of charge q, one of charge 3q,...Ch. 3.4 - In Ex. 3.9, we derived the exact potential for a...Ch. 3.4 - Prob. 3.31P Ch. 3.4 - Two point charges, 3qand q , arc separated by a...Ch. 3.4 - Prob. 3.33P Ch. 3.4 - Three point charges are located as shown in Fig....Ch. 3.4 - A solid sphere, radius R, is centered at the...Ch. 3.4 - Prob. 3.36P Ch. 3.4 - Prob. 3.37P Ch. 3.4 - Here’s an alternative derivation of Eq. 3.10 (the...Ch. 3.4 - Prob. 3.39P Ch. 3.4 - Two long straight wires, carrying opposite uniform...Ch. 3.4 - Prob. 3.41P Ch. 3.4 - You can use the superposition principle to combine...Ch. 3.4 - A conducting sphere of radius a, at potential V0 ,...Ch. 3.4 - Prob. 3.44P Ch. 3.4 - Prob. 3.45P Ch. 3.4 - A thin insulating rod, running from z=a to z=+a ,...Ch. 3.4 - Prob. 3.47P Ch. 3.4 - Prob. 3.48P Ch. 3.4 - Prob. 3.49P Ch. 3.4 - Prob. 3.50P Ch. 3.4 - Prob. 3.51P Ch. 3.4 - Prob. 3.52P Ch. 3.4 - Prob. 3.53P Ch. 3.4 - Prob. 3.54P Ch. 3.4 - Prob. 3.55P Ch. 3.4 - Prob. 3.56P Ch. 3.4 - Prob. 3.57P Ch. 3.4 - Find the charge density () on the surface of a...

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