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= 3Br? where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R? 1 AV = Br O AV = (1– BR²)aR Ο ΔV - βR3
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= 3Br? where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R? 1 AV = Br O AV = (1– BR²)aR Ο ΔV - βR3
Related questions
Question

Transcribed Image Text:O AV = (1– BR²)aR
O AV = - BR3
1
AV =
BR3
1
AV =
Br3
2
AV =
Br3
O AV = - (1– B)aR³
1
AV =
3 Br3
1
AV =
BR3
1
(1 – B)aR³
AV =
-

Transcribed Image Text:The electric potential difference A V, 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= 3Br2
where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R?
1
AV =
Br2
-
2
O AV = (1- BR?)aR
O AV = - BR3
Expert Solution

This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 3 steps

Follow-up Questions
Read through expert solutions to related follow-up questions below.
Follow-up Question

Transcribed Image Text: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= - 2Br?
where B is just a constant without an arbitrary value. What is the electric potential difference from position 0 to R?
Solution