Difference between revisions of "Order of Differential Equations"

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Examples:
 
Examples:
* <math> y'' + xy' - x^3y = \sin{x} </math> is of order 2 because the highest-order derivative, <math> y'' </math>, is of order 2.
+
* <math> y'' + xy' - x^3y = \sin{x} </math> is second order because the highest-order derivative, <math> y'' </math>, is of order 2.
* <math> </math>
+
* <math> x't + x = t^2 </math> is first order because x' is the highest order derivative.
* <math> </math>
+
* <math> y''' + 3y'' + 3y' + y = x^2 </math> is of order 3.
  
 
==Resources==
 
==Resources==
 
* [https://courses.lumenlearning.com/boundless-calculus/chapter/differential-equations/ Differential Equations], Lumen Learning
 
* [https://courses.lumenlearning.com/boundless-calculus/chapter/differential-equations/ Differential Equations], Lumen Learning
 
* []
 
* []

Revision as of 18:55, 17 September 2021

Introduction

The order of a differential equation is determined by the highest-order derivative. The higher the order of the differential equation, the more arbitrary constants need to be added to the general solution. A first-order equation will have one, a second-order two, and so on. The degree of a differential equation, similarly, is determined by the highest exponent on any variables involved.

Examples:

  • is second order because the highest-order derivative, , is of order 2.
  • is first order because x' is the highest order derivative.
  • is of order 3.

Resources