 |
Seminole State Homepage | Calculus I | Calculus II | Calculus III | Diff Eq | Calculus Homepage |
|
|
|
4.7 You will need to be able to solve a Cauchy-Euler equation. 6.1 You will need to be able to generate the power series solution to second order, linear, homogeneous differential equations including initial value problems. The first example at the end of this link is like my series solution example 1. Here is the SOS introduction to series solutions. You need to know how to differentiate a power series and, when necessary, shift the index. You will need to be able to use the power series method on a non-homogeneous equation by finding the power series solution to the complementary (corresponding homogeneous) equation and a particular solution to the non-homogeneous equation. You will need to know how to find a power series solution when the initial conditions are not prescribed at zero. You will need to be able to quickly figure out the minimum radius of convergence of a power series solution. Here are two excellent introductory SOS examples where the power series method is applied to constant coefficient equations whose solution could be obtained by other methods (like in take-home test problem 1 below). You will need to be able to solve Airy's Equation and Hermite's Equation. Here is more information on Airy's Equation, an Airy's Equation applet, and more on Hermite's Equation.
Click here to see a page of worked out series solution examples. HAPPY HOLIDAYS (if it is December) | |||||||||||||||||||||||
|
This site contains links to other Internet sites. These links are not endorsements of any products or services in such sites, and no information in such site has been endorsed or approved by this site. Lane Vosbury, Mathematics, Seminole State College email: vosburyl@seminolestate.edu This page was last updated on 08/21/14 Copyright 2002 webstats |
