Equilibrium Points for Nonlinear Differential Equations

Показать описание

MathIsGreatFun

Рекомендации по теме

Комментарии

At 4:38 it should be 3y*(-y) = - 3y^2 and not 3y^2 so the final solution will be real

pawanrewaskar

The greatest value of this video for me, is the emphasis on the simultaneity of the points. Thanks a lot.

marcojimenez

I like that the guy is not lazy. Some guys will just jump of the steps. You can come to watch a video a small idea and ending up being confused more😁

mdaraphiri

4:40 at this point, I thought that I missed something or there is some complex algebra that I don't know haha. but I saw the comment that some person wrote and then I realized that you just wrote missing . Your explaination is very clear and easy. thanks for uploading this video

msk

6 years after you made this, I found this useful. Thanks

sodiq_

Thanks, man. Your videos really make this world better.

vmuccuu

Many thanks. The emphasis on the rates must be zero simultaneity is very important in my opinion.

osamahebala

This video was incredibly helpful. Thank you.

illuminatus

Thank you very much. You are helping a lot.

olivioarmandocordeirojunio

Once i found the equilibrium points, how can I know which ones are stable and which ones aren't?

GoldenMika

Can we find the equilibrium points using software like matlab and how???

dankykong

You missed a minus sign during operation that caused complex roots.

xiahua

My 89 year old grandmother says her brain is at 0 simultaneously.

KatieRabbitt

thank you for this video but 3Y^3 + 3Y^2 +1 = 0 so the value 0.26 and -1.263 and 0

ahmedelhop

It should be 3y*(-y) = - 3y^2 and not 3y^2 so it has a real solution.

sisayayanaw

We lost a negative when multiplying 3y by (-y) :[

traviss

i want to know the stability and the eigenvalues of the fixed points

bottle-xzhp

This doesn't help at all just fyi

tpauu

Equilibrium Points for Nonlinear Differential Equations

Equilibrium Points for Nonlinear Differential Equations

Differential Equations - Non-Linear Systems - Finding Equilibrium Solutions

Nonlinear odes: fixed points, stability, and the Jacobian matrix

Linearizing Nonlinear Differential Equations Near a Fixed Point

25.2 Stable and Unstable Equilibrium Points

Differential Equations - Non-Linear Systems - Finding and Classifying Equilibrium Solutions

Equilibrium Point Analysis via Linearization

How can we analyze the equilibrium points of nonlinear systems?

Using the Jacobean to Linearize at nonlinear system at an equilibrium point

Autonomous Equations, Equilibrium Solutions, and Stability

Nullclines, Equilibria, and Phase Portrait for a Nonlinear System of Differential Equations

(8.2.101C) Find and Classify the Critical Points of a Nonlinear System of ODEs

Chapter 8: Practice Example for Nonlinear System

Differential Equations - Non-Linear Systems - Finding and Classifying Equilibrium Solutions Example

Nonlinear Systems: Fixed Points, Linearization, & Stability

Intro to Control - 6.4 State-Space Linearization

Finding fixed points for nonlinear systems

Equilibrium Points [Worked Example]

Intro to Control - 5.2 System Linearization

Nullclines and Dynamics of Systems

Nonlinear ode: fixed points and linear stability

(8.1.1) Systems of Autonomous Nonlinear Differential Equations and Phase Plane Analysis

The stability of equilibria of a differential equation

Linear Systems ODEs Nullclines