Power series solutions for ODEs. When are there how many of them?

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SUMMARY

The discussion centers on finding power series solutions for second-order ordinary differential equations (ODEs). It highlights that coefficients of odd and even powers may depend on different arbitrary constants, leading to two independent solutions. The second linearly-independent solution can be derived using the Wronskian or through the method of variation of parameters, as referenced in Arfken's work. The process can be complex and may require careful manipulation of the formal power series.

PREREQUISITES
  • Understanding of second-order ordinary differential equations (ODEs)
  • Familiarity with power series expansions
  • Knowledge of the Wronskian and its applications
  • Experience with variation of parameters method
NEXT STEPS
  • Study the method of variation of parameters in detail
  • Explore the Wronskian and its role in determining linear independence of solutions
  • Review Arfken's text for examples of power series solutions
  • Practice deriving power series solutions for various second-order ODEs
USEFUL FOR

Mathematicians, engineers, and students studying differential equations, particularly those interested in power series methods and solution techniques for ODEs.

Jerbearrrrrr
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Hi,

could someone please link me to the relevant theorems etc (or explain personally) that answer the issue that follows.

Say you have an ODE (let's say 2nd order for now).
Let's look for a power series solution (ie assume we're engineers).
So, we write out a couple of sigmas etc and sub stuff into the ODE...

If we're lucky, it may turn out that, say, all the coefficients of odd powers depend on an arbitrary constant, and all the coefficients of the even powers depend on a different arbitrary constant.
That gives us our two independent solution.

But equally likely (whatever that means) we may find only one series solution this way.

Is there an ingenious way of finding the other solution (can probably derive the other one from the Wronskian in some cases)? And how do we know how many solutions we can find by subbing in a naive power series ansatz?

thanks
sorry if this is the wrong forum.
 
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Yes, the second linearly-independent solution can be found by power series. I don't remember all the details, but you can re-derive the whole thing by taking your formal power series solution and applying variation of parameters. There's a presentation of this in Arfken, but it is laborious and confusing. In the end you can find a second formula to plug into your equation, that will generate the second solution.
 

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