Given that the electric potential ( inunits of volts) in a region in space isgiven asV(x,y,z) = 3x²y+6xy²+9xyzFind the electric field ( in units of V/m)along the x-direction (Ex) at the point (1, -1, 2).Select one:А. 30В. 21С.-18D. 6Е. 18 Find the electric potential energy ( inunits of J) stored in a systemcomposed of two point charges91=11 µC and q2=17.8 µC whenseparated by a distance of 3.5 mmbetween them.Select one:A. 307.7B. 190.2C. 503.5D. 92.3E. 111.9

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Given that the electric potential ( in units of volts) in a region in space is given as V(x,y,z) = 3x²y+6xy²+9xyz Find the electric field ( in units of V/m) along the x-direction (Ex) at the point ( 1, -1, 2). Select one: A. 30 B. 21 С. -18 D. 6 E. 18

Given that the electric potential ( in units of volts) in a region in space is given as V(x,y,z) = 3x²y+6xy²+9xyz Find the electric field ( in units of V/m) along the x-direction (Ex) at the point ( 1, -1, 2). Select one: A. 30 B. 21 С. -18 D. 6 E. 18

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter26: Electric Potential

Section: Chapter Questions

Problem 51PQ

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Question

Given that the electric potential ( in
units of volts) in a region in space is
given as
V(x,y,z) = 3x²y+6xy²+9xyz
Find the electric field ( in units of V/m)
along the x-direction (Ex) at the point (
1, -1, 2).
Select one:
А. 30
В. 21
С.-18
D. 6
Е. 18

Find the electric potential energy ( in
units of J) stored in a system
composed of two point charges
91=11 µC and q2=17.8 µC when
separated by a distance of 3.5 mm
between them.
Select one:
A. 307.7
B. 190.2
C. 503.5
D. 92.3
E. 111.9

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