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4.) The surfaces r = 2 and 5, 0 = 30° and 75°, and = 20° and 60° identify a closed surface. (a) Find the enclosed volume, (b) Find the total area of the enclosed surface. (c) Find the total length of the twelve edges of the surface, (d) Find the length of the longest straight line that lies entirely within the volume.

4.) The surfaces r = 2 and 5, 0 = 30° and 75°, and = 20° and 60° identify a closed surface. (a) Find the enclosed volume, (b) Find the total area of the enclosed surface. (c) Find the total length of the twelve edges of the surface, (d) Find the length of the longest straight line that lies entirely within the volume.

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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subject: electromagnetics topic: vector analysis
4.) The surfaces r = 2 and 5, 6 = 30° and 75°, and = 20° and 60° identify a closed surface. (a) Find the enclosed volume, (b) Find the total area of the enclosed surface. (c) Find the total length of the twelve edges of the surface, (d) Find the length of the longest straight line that lies entirely within the volume.
Transcribed Image Text:4.) The surfaces r = 2 and 5, 6 = 30° and 75°, and = 20° and 60° identify a closed surface. (a) Find the enclosed volume, (b) Find the total area of the enclosed surface. (c) Find the total length of the twelve edges of the surface, (d) Find the length of the longest straight line that lies entirely within the volume.
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