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Using the Divergence Theorem, Find the Outward Flux of F $\le$

Question 13

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Using the Divergence Theorem, find the outward flux of F across the boundary of the region D.
-F = 6 $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ i + 6 $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ j + 6 $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ k ; D: the thick sphere 4 $\le$ $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ + $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ + $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ $\le$ 16

A) $Using the Divergence Theorem, find the outward flux of F across the boundary of the region D. -F = 6 i + 6 j + 6 k ; D: the thick sphere 4 \le + + \le 16 A) \pi B) 71,424 \pi C) 1008 \pi D) 1920 \pi$ $\pi$
B) 71,424 $\pi$
C) 1008 $\pi$
D) 1920 $\pi$

Using the Divergence Theorem, Find the Outward Flux of F ≤\le≤

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Using the Divergence Theorem, Find the Outward Flux of F $\le$

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