So I am given the problem: y'= (t+y)^2(y^2)+ sin(y^3) +ye^(ty), y(0) = 0 This initial value problem satisfies the existence and uniqueness theorem criteria using interval (−∞,∞) for both the t and y variables, and hence has a unique solution. Find this unique solution. I found out that y'(0) = 0 given the initial condition. Where do I go from here?
So I am given the problem: y'= (t+y)^2(y^2)+ sin(y^3) +ye^(ty), y(0) = 0 This initial value problem satisfies the existence and uniqueness theorem criteria using interval (−∞,∞) for both the t and y variables, and hence has a unique solution. Find this unique solution. I found out that y'(0) = 0 given the initial condition. Where do I go from here?
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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So I am given the problem:
y'= (t+y)^2(y^2)+ sin(y^3) +ye^(ty), y(0) = 0
This initial value problem satisfies the existence and uniqueness theorem criteria using
interval (−∞,∞) for both the t and y variables, and hence has a unique solution. Find
this unique solution.
I found out that y'(0) = 0 given the initial condition. Where do I go from here?
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