19. Let D = 12xyza, +(6x²z + 6yz)a, + (6x²y + 3y2)a, C/m² and find the incremental amount of charge in a volume of 10-10 m³ located at: (a) (0,0,0); (b) (4,2,-3); (c) (4,y,—3). (d) At what location in the cubical region 0 ≤ x,y,z ≤ 2 should the small volume be located to contain a maximum charge?
19. Let D = 12xyza, +(6x²z + 6yz)a, + (6x²y + 3y2)a, C/m² and find the incremental amount of charge in a volume of 10-10 m³ located at: (a) (0,0,0); (b) (4,2,-3); (c) (4,y,—3). (d) At what location in the cubical region 0 ≤ x,y,z ≤ 2 should the small volume be located to contain a maximum charge?
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![19. Let D = 12xyza, +(6x²z + 6yz)a, + (6x2y + 3y2)a, C/m² and find the incremental
amount of charge in a yolume of 101 -10 m3 located at: (a) (0,0,0); (b) (4,2,-3);
(c) (4,y,-3). (d) At what location in the cubical region 0 ≤ x,y,z ≤ 2 should the small
volume be located to contain a maximum charge?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F22cc9bb5-2e6f-4d44-bf5e-27586332d68e%2F68a19486-f738-4888-811a-86a7780baa1f%2F02tio33e_processed.jpeg&w=3840&q=75)
Transcribed Image Text:19. Let D = 12xyza, +(6x²z + 6yz)a, + (6x2y + 3y2)a, C/m² and find the incremental
amount of charge in a yolume of 101 -10 m3 located at: (a) (0,0,0); (b) (4,2,-3);
(c) (4,y,-3). (d) At what location in the cubical region 0 ≤ x,y,z ≤ 2 should the small
volume be located to contain a maximum charge?
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