Curiosity on second order ODE

02062015, 10:02 AM
(This post was last modified: 02062015 10:28 AM by salvomic.)
Post: #1




Curiosity on second order ODE
hi,
The second order ordinary differential equation y''(x)y'(x)6 y(x) = 0 is solved into y(x) = c_1 e^(2 x)+c_2 e^(3 x). Why HP Prime give a factor of \( \frac{1}{5} \) added? It give \( \frac{1}{5}e^{2x}(3G_0+G_1)+\frac{1}{5}e^{3x}(2G_0+G_1) \) With substitution of 3G_0+G1=c_1 and 2G_0+G1=c_2 we get the solution, but multiplied by 1/5. Therefore, if the ODE isn't homogeneous (i.e. like y''(x)y'(x)6 y(x) = t*e^(2t) we get a long expression with 1/15 ... 1/10 ... (try by yourself) instead of a "simply" expression (see here in Wolfamalpha) I would like to simplify it a bit Definitely, I would have a method to collect various constants (G_0, G_1...) to have a more compact format, like we do solving manually the equation. Maybe in the future Prime will do the job for us... Thank you for reply and patience. Salvo ∫aL√0mic (IT9CLU) :: HP Prime 50g 41CX 71b 42s 39s 35s 12C 15C  DM42, DM41X  WP34s Prime Soft. Lib 

02062015, 11:44 AM
Post: #2




RE: Curiosity on second order ODE
The current solution is expressed in terms of the initial value at 0.
At the request of a few Prime and Geogebra users, I have implemented a new method for general solutions of linear equations of order 2 with constant coeffs (also order 3 for generic case), it is already available in Xcas unstable versions. 

02062015, 12:07 PM
Post: #3




RE: Curiosity on second order ODE
(02062015 11:44 AM)parisse Wrote: The current solution is expressed in terms of the initial value at 0. thank you! Now it's clear. I'm looking forward to see this and others improvements also in the Prime soon ∫aL√0mic (IT9CLU) :: HP Prime 50g 41CX 71b 42s 39s 35s 12C 15C  DM42, DM41X  WP34s Prime Soft. Lib 

05132015, 08:13 PM
Post: #4




RE: Curiosity on second order ODE
solved now with firmware 7820!
Answer: G_0*e^(3x)+G_1*e^(2x) ∫aL√0mic (IT9CLU) :: HP Prime 50g 41CX 71b 42s 39s 35s 12C 15C  DM42, DM41X  WP34s Prime Soft. Lib 

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