Questions tagged [nonlinear-system]

In mathematics, a nonlinear system of equations is a set of simultaneous equations in which the unknowns (or the unknown functions in the case of differential equations) appear as variables of a polynomial of degree higher than one or in the argument of a function which is not a polynomial of degree one.

In other words, in a nonlinear system of equations, the equation(s) to be solved cannot be written as a linear combination of the unknown variables or functions that appear in it (them).

2212 questions

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10 answers

System of nonlinear equations that leads to cubic equation

The system of equations are: $$\begin{align}2x + 3y &= 6 + 5x\\x^2 - 2y^2 - (3x/4y) + 6xy &= 60\end{align}$$ I can solve it through substitution but it is an arduous process to reach this cubic equation: $$20x^3 + 56x^2 - 243x - 544 = 0$$ And I can…

algebra-precalculus systems-of-equations nonlinear-system

asked Nov 12 '14 at 12:31

joefieldsend

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2 answers

System of non-linear equations.

I have to find all triplets $(x,y,z)$ that satisfy: $$x^{2012} + y^{2012} + z^{2012} = 3\\x^{2013} + y^{2013} + z^{2013} = 3\\x^{2014} + y^{2014} + z^{2014} = 3$$ I've found the trivial solution $(1,1,1)$ but I don't know how to start looking for…

polynomials systems-of-equations nonlinear-system

asked Aug 18 '14 at 08:51

Dos.SieteUnoOchoDosOchoEtc

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1 answer

When can a non-autonomous system NOT be re-written as an autonomous system?

Consider Duffing's equation $\ddot x + \delta \dot x + \alpha x + \beta x^3 = \gamma \cos{\omega t},$ where $\delta, \alpha, \beta, \gamma$ and $\omega$ are real parameters, $t$ represents time and $\dot x := dx/dt$. Since there is an explicit…

ordinary-differential-equations dynamical-systems nonlinear-system

asked Jul 11 '13 at 14:04

trolle3000

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2 answers

The Stable Manifold Theorem Applications

Definition: Let $\phi_t(x)$ be the flow of the nonlinear system $x'=f(x)$. The global stable manifold of $x'=f(x)$ at $0$ is defined by: $$W^s(0)=\bigcup_{t\leq 0}\phi_t(S)$$ Where $S$ is a $k$-dimensional differentiable manifold tangent to the…

analysis ordinary-differential-equations multivariable-calculus dynamical-systems nonlinear-system

asked May 30 '14 at 13:19

riva

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2 answers

Algorithms for factoring multivariate polynomials

I am wondering if there are any algorithms to factor polynomials in multiple variables, when you know that the factors are other polynomials with rational or integer coefficients. I know you have the rational root theorem, which helps out a lot, but…

abstract-algebra algebra-precalculus polynomials nonlinear-system

asked Mar 08 '14 at 09:01

Ruben

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3 answers

Roots of a set of nonlinear equations $ax + yz = b_1; ay + xz = b_2; az + xy = b_3$

Let $a$ be a non-negative real number, $b_1, b_2, b_3$ be real numbers, and $x, y, z$ be variables. Is it possible to analytically find the root closest to origin $(0, 0, 0)$ of the set of nonlinear equations given by: $$\begin{cases} ax + yz = …

algebra-precalculus polynomials systems-of-equations nonlinear-system applications

asked Nov 30 '22 at 22:57

Ahmet Taha KORU

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1 answer

Understanding the singularity in $f^{-1}(x)=\int_0^x f(t)dt$

Note that here $f^{-1}(x)$ is the functional inverse of $f$. Clearly from the definition of the equation $f^{-1}(0)=0\Rightarrow f(0)=0$. By setting $x\to f(x)$ and differentiating one finds $$f'(x)f(f(x))=1$$ and therefore $\lim_{x\to…

ordinary-differential-equations inverse nonlinear-system singularity singular-solution

asked Nov 09 '21 at 23:15

DinosaurEgg

9,763
1
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29

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Is there a connection between topological mixing and squashing functions used in neural networks?

Sigmoid, ReLU, tanh, logistic -type "squashing" functions are popular in neural networks to introduce nonlinearity into the transformations of the input vector, allowing the network to fit complex input-output surfaces. Deeper layers (stacking…

differential-geometry nonlinear-system chaos-theory neural-networks

asked May 03 '15 at 02:08

ejang

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1 answer

Are continuous chaotic systems necessarily uncomputable?

I have seen the claim in a recent unpublished paper that chaotic dynamics are necessarily uncomputable. This follows, they argue, from the sensitivity to initial conditions shown in chaotic systems. This glib identity between chaos and computability…

dynamical-systems computability nonlinear-system chaos-theory

asked Jan 27 '14 at 02:07

neuronet

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1 answer

Eigenvalues of a $12 \times 12$ Jacobian matrix

Consider the set of coordinates $X_{i, j}^{(\ell)}$ and $Y_{i, j}^{(\ell)}$, where $i \in (1, 2, 3), j \in (1, 2, 3)$ and $i \neq j$ and $\ell = \pm 1$. The superscipt $(\ell)$ is an index. Consider the change of variables from $\mathbf{X}$ to…

matrices eigenvalues-eigenvectors nonlinear-system jacobian

asked Jun 27 '19 at 19:29

Mr. G

1,058
8
24

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2 answers

Are there Soliton Solutions for Maxwell's Equations?

Some non-linear differential equations (such as Korteweg–de Vries and Kadomtsev–Petviashvili equations) have "solitary waves" solutions (solitons). Does the set of partial differential equations known as "Maxwell's equations" theoretically admit…

partial-differential-equations mathematical-physics nonlinear-system electromagnetism soliton-theory

asked Aug 01 '18 at 13:01

user559615

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1 answer

Finding the period of a nonlinear ODE

I am studying a periodic physical system with a nonlinear ODE $$x''=f(x)+g(x)x'^2$$ I think the periodicity comes from the $x'^2$ term because this provides two possible numbers to give a same right hand side value. The following shows three…

ordinary-differential-equations fourier-analysis dynamical-systems nonlinear-system periodic-functions

asked May 30 '18 at 15:30

Shengkai Li

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4 answers

Solving a system of non-linear equations with 10 equations and 10 unknowns

I'm working on a problem where I seem to have run into a system of non-linear equations. I have ten equations and ten unknowns. In the equations below, all of the $\phi_{ij}$'s are known, but all of the $a_{1},...,e_{2}$ are…

nonlinear-system

asked Jun 30 '15 at 18:29

Jeff

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0 answers

How to solve non-linear differential equation

How to solve non-linear differential equation $$y'(x) = y(y(x)), \quad y\colon\mathbb{R}\to\mathbb{R}?$$ Of course, $y(x)\not\equiv 0$. If we substitute $y(x) = Ax^n$, we get complex $n$ and $A$. Any numerical solution doesn't work because we can't…

ordinary-differential-equations functional-equations nonlinear-system

asked Jun 03 '15 at 09:44

Michael Galuza

4,700
2
21
43

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4 answers

How do I solve $\frac{d^2y}{dx^2} = (1+(\frac{dy}{dx})^2)^{3/2}$?

$$\frac{d^2y}{dx^2} = \left(1+\left(\frac{dy}{dx}\right)^2\right)^{3/2}$$ My progress: I have used substituon $u = \frac{dy}{dx}$ and arrived at $u^2 = \frac{(x+c)^2}{1-(x+c)^2}$ equation with $c$ - constant. After that I was unsure on whether it is…

ordinary-differential-equations nonlinear-system

asked May 02 '20 at 05:52

Snowball

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2 3

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