Difference between revisions of "Linear Homogeneous Equations"
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(Created page with "Homogeneous linear differential equations take the form <math> P_{n}(x)y^{(n)} + P_{n-1}(x)y^{(n-1)} + ... + P_{2}(x)y^{(2)} + P_{1}(x)y^{(1)} </math> ==Resources== * [https:/...") |
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| − | + | Linear differential equations take the form | |
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| + | <math> P_{n}(x)y^{(n)} + P_{n-1}(x)y^{(n-1)} + ... + P_{1}(x)y' + P_{0}(x)y = Q(x) </math> | ||
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| + | where <math> P_{n}(k) </math> and <math> Q(x) </math> are functions of the independent variable x and <math> y^{k} </math> is the k-th derivative of <math> y(x) </math> with respect to x. | ||
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| + | Homogeneous linear equations are linear differential equations where <math> Q(x) = 0 </math>. | ||
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==Resources== | ==Resources== | ||
* [https://web.stanford.edu/class/archive/math/math21/math21.1146/files/21/notes8.pdf Homogeneous Linear Differential Equations], Stanford University | * [https://web.stanford.edu/class/archive/math/math21/math21.1146/files/21/notes8.pdf Homogeneous Linear Differential Equations], Stanford University | ||
| + | * [https://www.whitman.edu/mathematics/calculus_online/section17.02.html First Order Homogeneous Linear Equations], Whitman College | ||
Latest revision as of 10:49, 20 September 2021
Linear differential equations take the form
where and are functions of the independent variable x and is the k-th derivative of with respect to x.
Homogeneous linear equations are linear differential equations where .
Resources
- Homogeneous Linear Differential Equations, Stanford University
- First Order Homogeneous Linear Equations, Whitman College
