| Line 1: | Line 1: | ||
| − | [[ | + | [[Category:MA366]] |
| − | + | = MA 366: Ordinary Differential Equations = | |
| + | ==What is MA366 all about?== | ||
Differential equations, which state a relation between a function and its derivatives, appear constantly in physics, chemistry, engineering, biology, and whatever other sufficiently mathematical science one can think of, and the more difficult ones continue to be an active area of mathematical research. Solving differential equations, as you will see in this course, proves to be an endeavor requiring a variety of techniques, and far more frequently than you would prefer, no simple formula exists for deriving the desired solution. | Differential equations, which state a relation between a function and its derivatives, appear constantly in physics, chemistry, engineering, biology, and whatever other sufficiently mathematical science one can think of, and the more difficult ones continue to be an active area of mathematical research. Solving differential equations, as you will see in this course, proves to be an endeavor requiring a variety of techniques, and far more frequently than you would prefer, no simple formula exists for deriving the desired solution. | ||
| Line 17: | Line 18: | ||
*[[MA366-7|with complex roots]] | *[[MA366-7|with complex roots]] | ||
| − | + | == List of semester-specific course wikis== | |
| − | + | *[[MA366_(PenneySpring2009)|Spring 2009, Prof. Penney]] | |
| + | ---- | ||
[[Meta Course List|Back to the Meta Course List]] | [[Meta Course List|Back to the Meta Course List]] | ||
Revision as of 09:39, 29 December 2009
MA 366: Ordinary Differential Equations
What is MA366 all about?
Differential equations, which state a relation between a function and its derivatives, appear constantly in physics, chemistry, engineering, biology, and whatever other sufficiently mathematical science one can think of, and the more difficult ones continue to be an active area of mathematical research. Solving differential equations, as you will see in this course, proves to be an endeavor requiring a variety of techniques, and far more frequently than you would prefer, no simple formula exists for deriving the desired solution.
The differential equations you will study in this course are broken up into different families according to which techniques lead to their solutions. It is (mostly) along these lines that this course wiki is divided.
Contents
1) What does it mean to solve a differential equation? What is an initial value problem?
2) Separable Equations
3) First Order Linear Equations
4) Homogeneous Equations
5) Exact Equations
6) Homogeneous Equations with Constant Coefficients
