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4. Practice similar Help me with this < Previous Consider the differential equation y = -x-y. Use Euler's method with Ax = 0.1 to estimate y when x = 1.4 for the solution curve satisfying y(1) 1: Euler's approximation gives y(1.4)~ Use Euler's method with Ax = 0.1 to estimate y when x = 2.4 for the solution curve satisfying y(1) = 0: Euler's approximation gives y(2.4)~ Next >

4. Practice similar Help me with this < Previous Consider the differential equation y = -x-y. Use Euler's method with Ax = 0.1 to estimate y when x = 1.4 for the solution curve satisfying y(1) 1: Euler's approximation gives y(1.4)~ Use Euler's method with Ax = 0.1 to estimate y when x = 2.4 for the solution curve satisfying y(1) = 0: Euler's approximation gives y(2.4)~ Next >

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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4. Practice similar Help me with this Consider the differential equation y' = -x - y. Use Euler's method with Ax 0.1 to estimate y when x = y(1) 1: Euler's approximation gives y(1.4)~ Use Euler's method with Ax → - = = 0.1 to estimate y when x = 1.4 for the solution curve satisfying < Previous Next > 2.4 for the solution curve satisfying y(1) = 0 : Euler's approximation gives y(2.4) ≈
Transcribed Image Text:4. Practice similar Help me with this Consider the differential equation y' = -x - y. Use Euler's method with Ax 0.1 to estimate y when x = y(1) 1: Euler's approximation gives y(1.4)~ Use Euler's method with Ax → - = = 0.1 to estimate y when x = 1.4 for the solution curve satisfying < Previous Next > 2.4 for the solution curve satisfying y(1) = 0 : Euler's approximation gives y(2.4) ≈
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