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- Linear vs nonlinear differential equation - Mathematics Stack Exchange
2 One could define a linear differential equation as one in which linear combinations of its solutions are also solutions
- ordinary differential equations - Drawing Direction Fields Online . . .
I am looking for a convenient and free online tool for plotting Direction Fields and Solution Curves of Ordinary Differential Equations I tried the "Slope Field Plotter" on Geogebra; it worked tol
- ordinary differential equations - difference between implicit and . . .
What is difference between implicit and explicit solution of an initial value problem? Please explain with example both solutions (implicit and explicit)of same initial value problem? Or without exa
- What is the essential difference between ordinary differential . . .
What is the essential difference between ordinary differential equations and partial differential equations? Ask Question Asked 9 years, 10 months ago Modified 3 years, 1 month ago
- differential geometry - Introductory texts on manifolds - Mathematics . . .
3) Manifolds and differential geometry, by Jeffrey Marc Lee (Google Books preview) 4) Also, I just recently recommended this site in answer to another post; the site is from Stanford University; it offers a vast menu of detailed handouts used as the text for a class there on Differential Geometry, each handout accessible downloadable as a pdf
- reference request - Best Book For Differential Equations? - Mathematics . . .
The differential equations class I took as a youth was disappointing, because it seemed like little more than a bag of tricks that would work for a few equations, leaving the vast majority of interesting problems insoluble Simmons' book fixed that
- calculus - Difference between constants, arbitrary constants and . . .
Difference between constants, arbitrary constants and variables in differential equation Ask Question Asked 9 years, 2 months ago Modified 9 years, 2 months ago
- ordinary differential equations - Solving $y - y = 0$ - Mathematics . . .
3 Your differential equation is a special case of the more general ode ay′′ + by + cy = 0, a y ″ + b y + c y = 0, where a, b, c a, b, c are real numbers One way to solve it is by the following two steps: solve at2 + bt + c = 0 a t 2 + b t + c = 0 in t t; check if the roots are either: a) real and different, b) real and repeated or c
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