Strange way of solving a linear 2nd order DE

Alexrey · Nov 16, 2012

Homework Statement

I was given a DE of the form: [tex]\Phi^{''}+(6/\eta)\Phi^{'}=0[/tex] where the next step was given as [tex]\Phi^{'} \propto \eta^{-6}[/tex] where the answer came out to be [tex]\Phi \propto \eta^{-5} + constant[/tex]

The Attempt at a Solution

My attempt was to set [tex]\Phi^{'}=x[/tex] where I would then get [tex]x^{'}=-(6/\eta)x[/tex] and then solve for a seperable DE, but my answer was incorrect. Any help would be appreciated, thanks guys.

Any help would be appreciated, thanks guys.

haruspex · Nov 16, 2012

Alexrey said:

[tex]x^{'}=-(6/\eta)x[/tex]

To clarify, η is the independent variable, and differentiation is wrt that? If so [tex]dx/x=-6d\eta/\eta[/tex] yes? Isn't it straightforward from there?

Alexrey · Nov 16, 2012

About 5 minutes after posting this I figured it out. :/ Thanks for replying though, I appreciate it, that's exactly what I got. Cheers!

Strange way of solving a linear 2nd order DE

Homework Statement

The Attempt at a Solution

Related to Strange way of solving a linear 2nd order DE

1. What is a linear 2nd order DE?

2. What makes the way of solving a linear 2nd order DE "strange"?

3. Can the "strange" way of solving a linear 2nd order DE be used for all types of DEs?

4. Are there other methods for solving linear 2nd order DEs?

5. What are some real-world applications of solving linear 2nd order DEs?

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