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- ...endent process, a '''forcing function''' is a function that appears in the equations and is only a function of time, and not of any of the other variables.<ref> ...ls/elementaryapplie0000habe |title=Elementary Applied Partial Differential Equations |publisher=Prentice-Hall |year=1983 |isbn=0-13-252833-9 |page=272 |url-acce ...2 KB (268 words) - 21:47, 11 August 2023
- {{short description|Numerical method for solving ordinary differential equations}} ...differential equations|numerical method]] to solve [[ordinary differential equations]] derived from the [[trapezoidal rule]] for computing integrals. The trapez ...5 KB (730 words) - 16:40, 16 September 2024
- {{short description|Group of differential equations}} ...n |first=E. R. |date=1941 |title=Notes on Systems of Ordinary Differential Equations |url=https://www.jstor.org/stable/2371531 |journal=American Journal of Math ...7 KB (1,036 words) - 16:22, 3 February 2025
- {{Differential equations}} ...mistry, biology, medicine, economics, etc. This list presents differential equations that have received specific names, area by area. ...13 KB (1,449 words) - 10:46, 23 January 2025
- ...fferential equation topics]] and [[List of nonlinear ordinary differential equations]]. |[[Differential geometry]] ...23 KB (3,497 words) - 10:50, 27 January 2025
- {{Differential equations}} ...presents nonlinear [[Ordinary differential equation|ordinary differential equations]] that have been named, sorted by area of interest. ...38 KB (5,435 words) - 22:41, 23 February 2025
- This is a list of named [[linear ordinary differential equations]]. |[[Differential geometry]] ...4 KB (614 words) - 09:11, 9 October 2024
- ...The theory was put in its final simplified form for singular differential equations of even degree by Kodaira and others, using [[John von Neumann|von Neumann] ...[Hermann Weyl]] extended this theory to second order ordinary differential equations with [[singularity (mathematics)|singularities]] at the endpoints of the in ...63 KB (9,675 words) - 18:12, 26 February 2025
Page text matches
- ...Polyanin, Valentin F. Zaitsev, HANDBOOK OF NONLINEAR PARTIAL DIFFERENTIAL EQUATIONS, SECOND EDITION p540-542 CRC PRESS</ref> ...hs William E.Shiesser Traveling Wave Analysis of Partial Differential p135 Equations Academy Press ...1 KB (143 words) - 04:24, 18 January 2024
- ....<ref>LI Zhibing Traveling wave solution of nonlinear mathematical physics equations SCIENCEP 2008(李志斌编著 《非线性数学物理方程的行波解》 科学出版社 2008)</ref> * [[List of nonlinear partial differential equations]] ...1 KB (149 words) - 17:26, 6 January 2024
- ...on]]s''' are a set of two coupled [[Nonlinear system|nonlinear]] [[partial differential equation]]s:<ref>阎振亚著 《复杂非线性波的构造性理论及其应用》 第65页 科学出版社 2007年(in Chinese, SCIE ...ths, William E. Shiesser, "Traveling Wave Analysis of Partial Differential Equations", p. 135 ''Academic Press'' ...1 KB (154 words) - 16:56, 6 August 2021
- ...a property of [[Runge–Kutta method]]s for solving [[ordinary differential equations]]. ...ear = 1996 | title = Solving ordinary differential equations II: Stiff and differential-algebraic problems | edition = second | publisher = [[Springer-Verlag]] | l ...1 KB (158 words) - 15:42, 15 October 2023
- ...tial equations named after Euler|List of things named after Leonhard Euler#Equations}} ...rd Euler]]. It is given by:<ref>Ince, E. L. "L. 1944 Ordinary Differential Equations." 227.</ref> ...926 bytes (132 words) - 02:07, 7 December 2024
- ...olyanin, Valentin F. Zaitsev, ''Handbook of Nonlinear Partial Differential Equations'', equation # 5.1.10.3. second edition p. 212 CRC PRESS</ref> [[Category:Nonlinear partial differential equations]] ...652 bytes (80 words) - 00:52, 17 May 2024
- ....<ref>Li Zhibing Traveling Wave Solution of Nonlinear Mathematical Physics equations SCIENCEP 2008(李志斌编著 《非线性数学物理方程的行波解》 页 科学出版社 2008)</ref> ...ths William E. Shiesser, ''Traveling Wave Analysis of Partial Differential Equations'', Academy Press ...2 KB (202 words) - 08:47, 13 December 2018
- The '''Dodd–Bullough–Mikhailov equation''' is a [[nonlinear partial differential equation]] introduced by Roger Dodd, [[Robin Bullough]], and Alexander Mikh Dodd-Bullough equations,” Chaos, Solitons and Fractals, vol. 25, no. 1, pp. 55–63, 2005.</ref> ...2 KB (196 words) - 09:25, 18 November 2024
- {{Short description|Solvable form of differential equation}} {{Differential equations}} ...3 KB (429 words) - 21:14, 8 February 2025
- ...aves]] when the third-order contributions are small. The term may refer to equations of the form ...u.ac.ir/article_16069.html |journal=Computational Methods for Differential Equations |volume=11 |issue=4 |pages=803–810}}</ref> ...1 KB (223 words) - 18:48, 26 January 2025
- ...dV) equation''' is an [[Integrable system|integrable]] nonlinear [[partial differential equation]]:{{sfn | Polyanin | Zaitsev | 2003}} ...ser | first2=W. E. | title=Traveling Wave Analysis of Partial Differential Equations | publisher=Academic Press | publication-place=Amsterdam; Boston | year=201 ...1 KB (142 words) - 04:02, 3 July 2024
- ...concept of [[ordinary differential equation]] in mathematics defined as [[differential inclusion]] for non-uniform upper [[hemicontinuity]] [[convex set]] with [[ == First order fuzzy differential equation == ...4 KB (476 words) - 05:09, 7 July 2024
- ...<ref>Li Zhibing Traveling Wave Solutions of Nonlinear Mathematical Physics Equations P140, SCIENCEP 2008 (李志斌编著 《非线性数学物理方程的行波解》 140页 科学出版社 2008)</ref> ...n 1976.<ref>Hirota, Ryogo; Satsuma, Junkichi, N-Soliton Solutions of Model Equations for Shallow Water Waves, Journal of the Physical Society of Japan, Volume 4 ...2 KB (292 words) - 23:27, 27 January 2025
- ...ons''' are an [[integrable system]] of two coupled [[nonlinear]] [[partial differential equation]]s proposed by [[Vladimir Drinfeld]] and Vladimir Sokolov, and ind [[Category:Nonlinear partial differential equations]] ...833 bytes (101 words) - 05:57, 13 June 2024
- ...endent process, a '''forcing function''' is a function that appears in the equations and is only a function of time, and not of any of the other variables.<ref> ...ls/elementaryapplie0000habe |title=Elementary Applied Partial Differential Equations |publisher=Prentice-Hall |year=1983 |isbn=0-13-252833-9 |page=272 |url-acce ...2 KB (268 words) - 21:47, 11 August 2023
- ...\over dx}</math><ref>{{cite book|last=Ross|first=Clay C|title=Differential Equations: An Introduction with Mathematica|year=2004|publisher=Springer|isbn=9781441 [[Category:Differential operators]] ...781 bytes (102 words) - 19:44, 29 April 2024
- ...]], the '''double integrator''' is a canonical example of a [[second-order differential equation|second-order]] control system.<ref name=Maxwell1867>{{cite journal == Differential equations == ...3 KB (383 words) - 07:15, 31 August 2024
- The '''Gardner equation''' is an [[integrable]] [[nonlinear partial differential equation]] introduced by the mathematician [[Clifford Gardner]] in 1968 to ...raga-Celaya | first2=Carlos | title=Solving Nonlinear Partial Differential Equations with Maple and Mathematica | publisher=Springer Science & Business Media | ...1 KB (142 words) - 15:09, 16 January 2025
- ...dynamical systems''' is a result on stability of solutions of systems of [[differential equation]]s. It has applications to [[chemical kinetics]].<ref>{{cite jour Consider this system of differential equations: ...2 KB (273 words) - 17:04, 27 January 2022
- {{Short description|Nonlinear partial differential equation}} The '''Korteweg–de Vries–Burgers equation''' is a nonlinear [[partial differential equation]]: ...1 KB (191 words) - 11:14, 26 February 2025