The non-exact differential...(x² + y²)dx + (3xy2 + 2xy + x³)dy = 0 can be reduced to exact after multiplying by the integrating factor: O None of these μ(y) = 3 O This Option μ(x) = e³x

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
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Chapter2: Second-order Linear Odes
Section: Chapter Questions
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The non-exact differential...(x² + y²)dx + (3xy² + 2xy + x³)dy = 0 can be
reduced to exact after multiplying by the integrating factor
None of these
μ(y) = 3
This Option
μ(x) = e3x
This Option
Transcribed Image Text:! The non-exact differential...(x² + y²)dx + (3xy² + 2xy + x³)dy = 0 can be reduced to exact after multiplying by the integrating factor None of these μ(y) = 3 This Option μ(x) = e3x This Option
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