ODEs- Series Solutions Near a Regular Singular Point

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Roni1985
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Homework Statement


6x2(x+1)2y''+0.5x(x+2)y'+y=0

ii) Find all values of r for which there is a series solution of form
xr[tex]\sum[/tex](anxn,n=0,inf)
a0 [tex]\neq[/tex]0

Find all values of r for which there is a series solution of form
inf
xr[tex]\sum[/tex]an(x-2)n
n=0
a0 [tex]\neq[/tex]0

Do not try to solve the problem, just find the values of r without solving for any constants.

Homework Equations

The Attempt at a Solution



What I tried to do was finding the indicial equation. For the first one I got 2 indicial equations, so I got 4 answers. Does it make sense ?

r=1/2
r=1/3
r=0
r=23/24
Also, if I try to reach the Euler equation, I get only the first two, but not the last two. Have I made any mistakes ?

And, I didn't know how to do the second one. Actually, I can do it but it would take me ages, so I believe there is a way to find r's without trying to reach the indicial equation.

Maybe I can try and reach the Euler equation?

Thanks,
Roni.
 
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Roni1985 said:

Homework Statement


6x2(x+1)2y''+0.5x(x+2)y'+y=0

ii) Find all values of r for which there is a series solution of form
xr[tex]\sum[/tex](anxn,n=0,inf)
a0 [tex]\neq[/tex]0

Find all values of r for which there is a series solution of form
inf
xr[tex]\sum[/tex]an(x-2)n
n=0
a0 [tex]\neq[/tex]0

Do not try to solve the problem, just find the values of r without solving for any constants.

Homework Equations

The Attempt at a Solution



What I tried to do was finding the indicial equation. For the first one I got 2 indicial equations, so I got 4 answers. Does it make sense ?

r=1/2
r=1/3
r=0
r=23/24
Also, if I try to reach the Euler equation, I get only the first two, but not the last two. Have I made any mistakes ?
Your second equation isn't an indicial equation; it just tells you how to calculate a1 in terms of a0. Only your first equation, the one involving only a0, dictates what the allowed values of r are.
Roni1985 said:
And, I didn't know how to do the second one. Actually, I can do it but it would take me ages, so I believe there is a way to find r's without trying to reach the indicial equation.

Maybe I can try and reach the Euler equation?
Think about when you need to use the Frobenius method as opposed to the regular old series solution.
 
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vela said:
Your second equation isn't an indicial equation; it just tells you how to calculate a1 in terms of a0. Only your first equation, the one involving only a0, dictates what the allowed values of r are.

The thing is that the second equation is also for a0 and this is confusing me.
((12(r-1)*r+0.5*r)a0)x1+r=0


vela said:
Think about when you need to use the Frobenius method as opposed to the regular old series solution.
We use Frobenius method near singular regular points...
but I don't think I understand how to use the second one.
 
Roni1985 said:
We use Frobenius method near singular regular points...
but I don't think I understand how to use the second one.
Ignore my earlier question. :)

Are you sure you have the correct form for the second series? I'm guessing they wanted you to expand about x=2, so the series should be

[tex](x-2)^r \sum_{n=0}^\infty a_n (x-2)^n[/tex]

whereas you only have xr out front.
 
vela said:
Your missing another term that contributes to the coefficient of xr+1.

I went over it like 5 times, and I don't think I'm missing anything when I group a0

There are two terms but for a1...


And, how would you do the second one ?

Thanks.
 
vela said:
Ignore my earlier question. :)

Are you sure you have the correct form for the second series? I'm guessing they wanted you to expand about x=2, so the series should be

[tex](x-2)^r \sum_{n=0}^\infty a_n (x-2)^n[/tex]

whereas you only have xr out front.
I have only xr, it might be a typo, though...
Say we have (x-2)r, should I go the regular Frobenius method ? Is it going to be like very very long for a question on an exam ? is there a shortcut ?

Thanks.
 
vela said:
You don't group by an. You group by powers of x.

hmmm... wow... thanks a lot.. didnt know this ...
appreciate it.
 
Roni1985 said:
I have only xr, it might be a typo, though...
Say we have (x-2)r, should I go the regular Frobenius method? Is it going to be like very very long for a question on an exam ? is there a shortcut?
I'd try the substitution u=x-2, and then go with the regular Frobenius method with the new differential equation.
 
vela said:
I'd try the substitution u=x-2, and then go with the regular Frobenius method with the new differential equation.

substitution... hmm, very smart :\

I'm going to try it...

Thanks.
 
Roni1985 said:
substitution... hmm, very smart :\

I'm going to try it...

Thanks.

because x=2 is reguler point, this eq has solution power serier.
And we can apply Frobinous theorem