Differential equations relate functions of several variables to derivatives of the functions. Such equations are often used in the sciences to relate a quantity to its rate of change.
More information
More information
Subcategories 8
Related categories 2
Sites 14
This demonstration illustrates the behaviour of solutions of the telegraph equation
Online course material
Various lecture notes by C. McMullen
A brief but technical overview of methods of finding Green's functions. By Evans M. Harrell II and James V. Herod.
A scientific software environment for the numerical solution of integro-differential equations, open to the coupling of physical problems (electromagnetic, acoustic, thermal, mechanical, ...) as well as of numerical methods (finite element methods, boundary element and integral methods, ...).
Collection of Green's function solutions to canonical differential equations.
Kevin Brown's compilation of postings including many topics in differential equations.
Explicit solutions provided for this particular type of equation and their relations to the heat equation, Burger's equation, and Euler's equation.
The site describes research activities of the differential equations group in the mathematics department at the university of Glasgow, UK, and provides some resources of a general nature.
Maple lessons for an undergraduate course in Differential Equations by Jim Herod.
Lecture notes on Analysis and PDEs by Bruce Driver at UCSD.
An article covering n-dimensional time-dependent linear Hamiltonian systems. By Jorge Rezende from the University of Lisbon.
[PDF]
This page includes an extensive table of Laplace transforms. Laplace transforms are used to solve certain differential equations.
Gives solutions to different types of ordinary differential equations, including linear and nonlinear functions. Many pages use PDF.
Maple lessons for an undergraduate course in Differential Equations by Jim Herod.
A scientific software environment for the numerical solution of integro-differential equations, open to the coupling of physical problems (electromagnetic, acoustic, thermal, mechanical, ...) as well as of numerical methods (finite element methods, boundary element and integral methods, ...).
Various lecture notes by C. McMullen
An article covering n-dimensional time-dependent linear Hamiltonian systems. By Jorge Rezende from the University of Lisbon.
[PDF]
This page includes an extensive table of Laplace transforms. Laplace transforms are used to solve certain differential equations.
Lecture notes on Analysis and PDEs by Bruce Driver at UCSD.
Collection of Green's function solutions to canonical differential equations.
Kevin Brown's compilation of postings including many topics in differential equations.
The site describes research activities of the differential equations group in the mathematics department at the university of Glasgow, UK, and provides some resources of a general nature.
A brief but technical overview of methods of finding Green's functions. By Evans M. Harrell II and James V. Herod.
Explicit solutions provided for this particular type of equation and their relations to the heat equation, Burger's equation, and Euler's equation.
Gives solutions to different types of ordinary differential equations, including linear and nonlinear functions. Many pages use PDF.
Online course material
This demonstration illustrates the behaviour of solutions of the telegraph equation
Other languages 2
Last update:
August 6, 2023 at 8:15:04 UTC
Check out
Business: Consumer Goods and Services: Clothing: Materials and Supplies: Hook and Loop Fasteners
- Recently edited by shedragon
- Recently edited by shedragon