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Suppose that the region D is the semi- annular region in the upper half-plane between the circles x? + y? = 9 and x? + y? = 25. A. The the line integral o (x – y)dy + x²dx = -Area(D) = -16T. aD B. None of the listed alternatives. C. The the line integral P (x – y)dy + x²dx - Area(D) = -87. aD D. The the line integral $ (x – y)dy + x²dx = Area(D) = 167. - %3| E. The the line integral $ (x – y)dy + x²dx = Area(D) = 8t.

Suppose that the region D is the semi- annular region in the upper half-plane between the circles x? + y? = 9 and x? + y? = 25. A. The the line integral o (x – y)dy + x²dx = -Area(D) = -16T. aD B. None of the listed alternatives. C. The the line integral P (x – y)dy + x²dx - Area(D) = -87. aD D. The the line integral $ (x – y)dy + x²dx = Area(D) = 167. - %3| E. The the line integral $ (x – y)dy + x²dx = Area(D) = 8t.

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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Suppose that the region D is the semi- annular region in the upper half-plane between the circles x2 + y? = 9 and x2 + y? = 25. %3D A. The the line integral 2 (x – y)dy + x² dx - Area(D) = –167. - B. None of the listed alternatives. C. The the line integral $ (x – y)dy + x² dx = -Area(D) = -8T. D. The the line integral O (x – y)dy + x² dx = Area(D) = 167. - E. The the line integral $ (x – y)dy + x² dx = Area(D): 8T.
Transcribed Image Text:Suppose that the region D is the semi- annular region in the upper half-plane between the circles x2 + y? = 9 and x2 + y? = 25. %3D A. The the line integral 2 (x – y)dy + x² dx - Area(D) = –167. - B. None of the listed alternatives. C. The the line integral $ (x – y)dy + x² dx = -Area(D) = -8T. D. The the line integral O (x – y)dy + x² dx = Area(D) = 167. - E. The the line integral $ (x – y)dy + x² dx = Area(D): 8T.
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