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Could you just substitute the f in the form they provided, into the ODE to prove that you can assume the solution is of that form? --[[User:Apdelanc|Adrian Delancy]]
 
Could you just substitute the f in the form they provided, into the ODE to prove that you can assume the solution is of that form? --[[User:Apdelanc|Adrian Delancy]]
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Question on IV.5.2 (And subsequently IV.5.3)
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If anyone could, I'd like some clarification. I'm confused on what the question is asking. Is it asking for the curve of the values of z that make the conditions true? --[[User:Whoskins|Whoskins]]

Revision as of 06:22, 24 September 2009


Homework 4

HWK 4 problems

Hint for IV.6.3 --Steve Bell

We assume $ (f)''=f $ on $ \mathbb C $.

Notice that

$ (e^z f)''=e^zf +2e^zf'+e^zf''=2(e^zf + e^zf')=2(e^zf)'. $

Let $ g=e^zf. $ Then $ g'=2g $ and now you can use the theorem from class that concerns solutions of this first order complex ODE. By the way, you will also need to use the fact that if two analytic functions on the complex plane have the same derivative, then they must differ by a constant.


Could you just substitute the f in the form they provided, into the ODE to prove that you can assume the solution is of that form? --Adrian Delancy


Question on IV.5.2 (And subsequently IV.5.3) If anyone could, I'd like some clarification. I'm confused on what the question is asking. Is it asking for the curve of the values of z that make the conditions true? --Whoskins

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