Please 🙏 help me to find the exact solution of ODE

4 visualizzazioni (ultimi 30 giorni)

Mostra commenti meno recenti

Tarek il 27 Lug 2025

0
Link

Link diretto a questa domanda

https://it.mathworks.com/matlabcentral/answers/2178771-please-help-me-to-find-the-exact-solution-of-ode

Commentato: Sam Chak il 29 Lug 2025

Risposta accettata: Torsten

I want to find the exact solution of ODE .The delta1 and delta2 are constants. y^2 y''+y*(y')^2-(y')^2+C1*y^4+C2*y^3=0

1 Commento
Mostra -1 commenti meno recentiNascondi -1 commenti meno recenti

Sam Chak il 28 Lug 2025

Hi @Tarek, could you provide some background on the ODE

?

Where does this ODE originate?

Why is it necessary to determine

and

?

And, once

and

are found, what do you expect to happen with the state variable y?

Accedi per commentare.

Accedi per rispondere a questa domanda.

Risposta accettata

Torsten il 27 Lug 2025

0
Link

Link diretto a questa risposta

https://it.mathworks.com/matlabcentral/answers/2178771-please-help-me-to-find-the-exact-solution-of-ode#answer_1568479

Modificato: Torsten il 27 Lug 2025

I doubt you can get an analytical expression for y. All you can do is to transform your 2nd order ODE into a system of first-order ODEs and use a numerical solver to get an approximate solution. Depending on your boundary conditions, you have to use ode45 (if all boundary conditions are given in only one point) or bvp4c (if the boundary conditions are given in different points) to get this solution. Of course, C1 and C2 and the boundary conditions have to be specified as numerical values in this case.

9 Commenti
Mostra 7 commenti meno recentiNascondi 7 commenti meno recenti

Tarek il 28 Lug 2025

Hi @Sam, thank you for your helping.

Does the obtained y is the exact solution for ode??

Sam Chak il 29 Lug 2025

Apri in MATLAB Online

Each trajectory in the plot represents the path of a solution to the differential equation, depending on the values of

and

. In my previous comment, I provided the simplest form of the solution, which corresponds to the specific initial condition when both

and

are zero. Note that singularities occur when

.

title(t, {'Behavior of solutions'}, 'interpreter', 'latex')

Accedi per commentare.

Più risposte (1)

Walter Roberson il 27 Lug 2025

0
Link

Link diretto a questa risposta

https://it.mathworks.com/matlabcentral/answers/2178771-please-help-me-to-find-the-exact-solution-of-ode#answer_1568484

Apri in MATLAB Online

syms C1 C2 y(x)

dy = diff(y);

d2y = diff(dy);

eqn = y^2 * d2y + y*dy^2 - dy^2 + C1*y^4 + C2*y^3 == 0

eqn(x) =

dsolve(eqn)

ans =

●

2 Commenti
Mostra NessunoNascondi Nessuno

Tarek il 27 Lug 2025

 Thanks for your help.

what the values of constant c1 and c2 from the last condition?

Torsten il 28 Lug 2025

Modificato: Torsten il 28 Lug 2025

Apri in MATLAB Online

C1 and C2 are the values from your own ODE

y^2 y''+y*(y')^2-(y')^2+C1*y^4+C2*y^3=0

and they will of course appear in a solution.

C3 and C4 are constants that arise from integrating your ODE without specifying two boundary conditions.

Example:

y'' = 5

has the general solution

y(x) = 2.5*x^2 + C3*x + C4

Accedi per commentare.

Accedi per rispondere a questa domanda.

Categorie

MATLAB Mathematics Numerical Integration and Differential Equations Ordinary Differential Equations

Scopri di più su Ordinary Differential Equations in Help Center e File Exchange

Tag

Prodotti

MATLAB Coder

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Translated by