The electric potential difference AV, also called voltage, is expressed in terms of the electric field as follows AV = Edr where, a is the initial position and b is the final position. If an electric field in a region in space is defined as E= Br? where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R? 1 AV = 1 AV = 1 AV = BR3 3 BR3 AV = 3 Br O AV = (1- BR?)aR ΔV =D Br3 ° Av = BR3 1 Ο ΔV- - (1-βaR3 %3D ~/3

The electric potential difference AV, also called voltage, is expressed in terms of the electric field as follows AV = Edr where, a is the initial position and b is the final position. If an electric field in a region in space is defined as E= Br? where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R? 1 AV = 1 AV = 1 AV = BR3 3 BR3 AV = 3 Br O AV = (1- BR?)aR ΔV =D Br3 ° Av = BR3 1 Ο ΔV- - (1-βaR3 %3D ~/3

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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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The electric potential difference AV, also called voltage, is expressed in terms of the electric field as follows
AV =
Edr
where, a is the initial position and b is the final position.
If an electric field in a region in space is defined as
E = Br²
where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R?
1
AV =
Br?
AV = -Br
1
AV =
BR3
AV =
O AV = (1– BR²)aR
1
AV =
Br
1
AV =
BR3
Ο ΔV- (1-β)αR3
O AV = - BR3
ΔV= -글(1-B)

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