3xy Given the expression for the potential y=- complete the expression below to compute for and (gle -a +[C] lale + [E]a d[F] [A] дх ду dz ду dz Finally, by inspection, essentially is obtained by taking the negative (J] of the potential function V. (A) A. 6xy [B] - [C) В. у [D] C. 3x2 - (E] (F] D. 3x2 (G] E. 3x?y (H] F. 9x?y G. None of the cho H. 2 I. Gradient . 3y K. Laplacian LI M. Divergence -17.

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Given the expression for the potential y =
3x?y
complete the expression below to compute for
and
23
O[B]
-a +[C]-
lale
-a_+[E]-
Lle
а
E =
[A]-
дх
ду
dz
P, d[G]
+-
dx
ду
dz
Finally, by inspection, essentially
is obtained by taking the negative [J] of the potential function V.
- (A]
A.
6xy
[B]
[C]
В. У
[D]
C. 3x2
- [E]
D.
3x2
- (F)
[G]
E. 3x³y
[H]
F. 9x?y
(J)
G. None of the cho
H. x2
I. Gradient
J. 3y
23
K. Laplacian
L. I
M. Divergence
-|.
Transcribed Image Text:Given the expression for the potential y = 3x?y complete the expression below to compute for and 23 O[B] -a +[C]- lale -a_+[E]- Lle а E = [A]- дх ду dz P, d[G] +- dx ду dz Finally, by inspection, essentially is obtained by taking the negative [J] of the potential function V. - (A] A. 6xy [B] [C] В. У [D] C. 3x2 - [E] D. 3x2 - (F) [G] E. 3x³y [H] F. 9x?y (J) G. None of the cho H. x2 I. Gradient J. 3y 23 K. Laplacian L. I M. Divergence -|.
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