Two points (M) and (P) separated by 1.3 m in a uniform electric field E = 820 V/m directed along the x-axis as shown. The electric potential difference (VM - Vp) (in Volts) is a) 396 b) 588 c) 696 d) 852 e) 984 0.5 m M* 1.3m P E
Two points (M) and (P) separated by 1.3 m in a uniform electric field E = 820 V/m directed along the x-axis as shown. The electric potential difference (VM - Vp) (in Volts) is a) 396 b) 588 c) 696 d) 852 e) 984 0.5 m M* 1.3m P E
Chapter7: Electric Potential
Section: Chapter Questions
Problem 5CQ: What is die strength of the electric field in a region where the electric potential is constant?
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Question
![11. Two points (M) and (P) separated by 1.3 m in a uniform electric field E = 820 V/m directed along the x-axis as
shown. The electric potential difference (VM - Vp) (in Volts) is
a) 396
b) 588
c) 696
d) 852
e) 984
0.5 m
M
13m
P
E
Page 3/4](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc08ed3f6-a324-46fa-a6bb-f36b7e7df867%2Fcc0daae8-c96e-4710-844c-eda3c8315da0%2Fxddvhe5_processed.jpeg&w=3840&q=75)
Transcribed Image Text:11. Two points (M) and (P) separated by 1.3 m in a uniform electric field E = 820 V/m directed along the x-axis as
shown. The electric potential difference (VM - Vp) (in Volts) is
a) 396
b) 588
c) 696
d) 852
e) 984
0.5 m
M
13m
P
E
Page 3/4
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