Given an electric potential of 1 q V= 4 πεο Γ find its corresponding electric field vector. Sol. Using the concept of potential gradient, we have È = - V Since we only have, radial direction (r). Then, the del-operator will be V =î- dr By substitution, we get ar Evaluating the differential, we, get the following 1 *(q/ 4πεο
Given an electric potential of 1 q V= 4 πεο Γ find its corresponding electric field vector. Sol. Using the concept of potential gradient, we have È = - V Since we only have, radial direction (r). Then, the del-operator will be V =î- dr By substitution, we get ar Evaluating the differential, we, get the following 1 *(q/ 4πεο
Chapter5: Electric Charges And Fields
Section: Chapter Questions
Problem 76P: Two point charges, q1=2.0107C and q2=6.0108C , are held 25.0 cm apart. (a) What is the electric...
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![Given an electric potential of
V=
4πεο Γ
find its corresponding electric field vector.
Sol.
Using the concept of potential gradient, we have
È = - V
Since we only have, radial direction (r). Then, the del-operator will be
V =î-
ar
By substitution, we get
È = -î-
Evaluating the differential, we, get the following
1
È =
*(q/
4πεο](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9006dc72-c542-49b7-b4e1-95f5215da2e2%2Fbcd24c41-c1c0-49f0-a04f-f1fb52d87179%2Fgfee3g_processed.png&w=3840&q=75)
Transcribed Image Text:Given an electric potential of
V=
4πεο Γ
find its corresponding electric field vector.
Sol.
Using the concept of potential gradient, we have
È = - V
Since we only have, radial direction (r). Then, the del-operator will be
V =î-
ar
By substitution, we get
È = -î-
Evaluating the differential, we, get the following
1
È =
*(q/
4πεο
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