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Consider the solid Q in the first octant, generated by the surfaces: y = -(x – 1)2 + 5, 2x – 3z = -6, x = 1, y = 1 y z= 0 As shown in the following drawing. 3 IZ 2 y If p (x, y, z) = y + x*z is the point density function of the surface highlighted in the figure above, then the approximate mass of said surface corresponds to: A) 24.3385 B) 53.2019 C) 44.2667 D) 6.4112

Consider the solid Q in the first octant, generated by the surfaces: y = -(x – 1)2 + 5, 2x – 3z = -6, x = 1, y = 1 y z= 0 As shown in the following drawing. 3 IZ 2 y If p (x, y, z) = y + x*z is the point density function of the surface highlighted in the figure above, then the approximate mass of said surface corresponds to: A) 24.3385 B) 53.2019 C) 44.2667 D) 6.4112

Advanced Engineering Mathematics
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Consider the solid Q in the first octant, generated by the surfaces: у%3 — (а — 1)? + 5, 2 — 32 %3D -6, а%3D 1, у-1 у 2%3D0 As shown in the following drawing. 3 IZ 2. y If p (x, y, z) = y + x*z is the point density function of the surface highlighted in the figure above, then the approximate mass of said surface corresponds to: A) 24.3385 B) 53.2019 C) 44.2667 D) 6.4112
Transcribed Image Text:Consider the solid Q in the first octant, generated by the surfaces: у%3 — (а — 1)? + 5, 2 — 32 %3D -6, а%3D 1, у-1 у 2%3D0 As shown in the following drawing. 3 IZ 2. y If p (x, y, z) = y + x*z is the point density function of the surface highlighted in the figure above, then the approximate mass of said surface corresponds to: A) 24.3385 B) 53.2019 C) 44.2667 D) 6.4112
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