Difference between revisions of "MAT3613"
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+ | ==Course Catalog== | ||
+ | [https://catalog.utsa.edu/undergraduate/sciences/mathematics/#courseinventory MAT 3613. Differential Equations I]. (3-0) 3 Credit Hours. | ||
+ | |||
+ | Prerequisite: Completion of or concurrent enrollment in [[MAT2233]]. Basic notions of differential equations, solution of first-order equations and linear equations with constant coefficients, nth-order initial value problems, Laplace transforms, and may include additional topics such as power series solutions of differential equations, linear systems, and stability. Generally offered: Fall, Spring, Summer. Differential Tuition: $150. | ||
+ | |||
+ | ==Text== | ||
+ | [https://login.libweb.lib.utsa.edu/login?url=http://link.springer.com/content/pdf/10.1007%2F978-3-319-02129-4.pdf Ahmad, S., & Ambrosetti, A. (2014). textbook on Ordinary Differential Equations (Vol. 73). Springer] | ||
==Topics List== | ==Topics List== | ||
{| class="wikitable sortable" | {| class="wikitable sortable" | ||
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* Integration techniques | * Integration techniques | ||
:- [[Direct Integration]] | :- [[Direct Integration]] | ||
− | :- [[Integration by | + | :- [[Integration by Substitution]] |
:- [[Integration by Parts]] | :- [[Integration by Parts]] | ||
:- [[Partial Fractions]] | :- [[Partial Fractions]] | ||
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* Ahmad and Ambrosetti 2014, Chaps. 1 and 3 | * Ahmad and Ambrosetti 2014, Chaps. 1 and 3 | ||
|| | || | ||
− | * [[Homogeneous Differential Equations (1st Order)]] | + | * [[Homogeneous Differential Equations|Homogeneous Differential Equations (1st Order)]] |
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* Integration techniques | * Integration techniques | ||
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* Ahmad and Ambrosetti 2014, Chaps. 1 and 3 | * Ahmad and Ambrosetti 2014, Chaps. 1 and 3 | ||
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− | * [[Linear Differential Equations (1st Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]] |
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* Integration techniques | * Integration techniques | ||
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* [[Integrating Factor]] | * [[Integrating Factor]] | ||
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− | * [[Linear Differential Equations (1st Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]] |
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* Apply integrating factor to solve linear differential equations of the first order. | * Apply integrating factor to solve linear differential equations of the first order. | ||
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* [[Bernoulli Equations (1st Order)]] | * [[Bernoulli Equations (1st Order)]] | ||
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− | * [[Linear Differential Equations (1st Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]] |
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* Determine Bernoulli of the first order. | * Determine Bernoulli of the first order. | ||
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* Ahmad and Ambrosetti 2014, Ch. 3 | * Ahmad and Ambrosetti 2014, Ch. 3 | ||
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− | * [[Exact Differential Equations (1st Order)]] | + | * [[Exact Differential Equations|Exact Differential Equations (1st Order)]] |
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* [[Integrating Factor]] for exact equations. | * [[Integrating Factor]] for exact equations. | ||
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* First-order differential equations: | * First-order differential equations: | ||
:- [[Separation of Variables (1st Order)]] | :- [[Separation of Variables (1st Order)]] | ||
− | :- [[Homogeneous Differential Equations (1st Order)]] | + | :- [[Homogeneous Differential Equations|Homogeneous Differential Equations (1st Order)]] |
− | :- [[Linear Differential Equations (1st Order)]] | + | :- [[Linear Differential Equations|Linear Differential Equations (1st Order)]] |
:- [[Bernoulli Equations (1st Order)]] | :- [[Bernoulli Equations (1st Order)]] | ||
− | :- [[Exact Differential Equations (1st Order)]] | + | :- [[Exact Differential Equations|Exact Differential Equations (1st Order)]] |
|| | || | ||
* Determine the type of different classes of differential equations of the first order: separable, linear, homogeneous, Bernoulli, exact. | * Determine the type of different classes of differential equations of the first order: separable, linear, homogeneous, Bernoulli, exact. | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[Linear Dependence of Functions]]. | + | * [[Linear Independence of Functions|Linear Dependence of Functions]]. |
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* [[Linear Dependence of Vectors]]. | * [[Linear Dependence of Vectors]]. | ||
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* [[Linear Independence of Functions]]. | * [[Linear Independence of Functions]]. | ||
− | * [[Linear Dependence of Functions]]. | + | * [[Linear Independence of Functions|Linear Dependence of Functions]]. |
* [[Determinant]]. | * [[Determinant]]. | ||
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* [[Wronskian]]. | * [[Wronskian]]. | ||
* [[Quadratic Equations]]. | * [[Quadratic Equations]]. | ||
− | * [[Linear Differential Equations (1st Order)]]. | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]]. |
* [[Solutions of Linear Systems]]. | * [[Solutions of Linear Systems]]. | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[Linear Homogeneous Equations]] | + | * [[Homogeneous Differential Equations|Linear Homogeneous Equations]] |
|| | || | ||
* [[Wronskian]]. | * [[Wronskian]]. | ||
* [[Quadratic Equations]]. | * [[Quadratic Equations]]. | ||
− | * [[Linear Differential Equations (1st Order)]]. | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]]. |
* [[Solutions of Linear Systems]]. | * [[Solutions of Linear Systems]]. | ||
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* [[Wronskian]]. | * [[Wronskian]]. | ||
* [[Quadratic Equations]]. | * [[Quadratic Equations]]. | ||
− | * [[Linear Differential Equations (1st Order)]]. | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]]. |
* [[Solutions of Linear Systems]]. | * [[Solutions of Linear Systems]]. | ||
|| | || | ||
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* [[Wronskian]]. | * [[Wronskian]]. | ||
* [[Quadratic Equations]]. | * [[Quadratic Equations]]. | ||
− | * [[Linear Differential Equations (1st Order)]]. | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]]. |
* [[Solutions of Linear Systems]]. | * [[Solutions of Linear Systems]]. | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[Linear Non-homogeneous Equations]] | + | * [[Linear Differential Equations|Linear Non-homogeneous Equations]] |
|| | || | ||
* [[Wronskian]]. | * [[Wronskian]]. | ||
* [[Quadratic Equations]]. | * [[Quadratic Equations]]. | ||
− | * [[Linear Differential Equations (1st Order)]]. | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]]. |
* [[Solutions of Linear Systems]]. | * [[Solutions of Linear Systems]]. | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[Variation of Parameters (2nd Order)]] | + | * [[Variation Of Parameters (2nd Order)|Variation of Parameters (2nd Order)]] |
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* Integration techniques | * Integration techniques | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[ | + | * [[Variation Of Parameters (2nd Order)|Variation of Parameters (2nd Order)]] (continued) |
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* Integration techniques | * Integration techniques | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[Variation of Parameters (Higher Order)]] | + | * [[Variation Of Parameters|Variation of Parameters (Higher Order)]] |
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− | * [[Variation of Parameters (2nd Order)]] | + | * [[Variation Of Parameters|Variation of Parameters (2nd Order)]] |
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* Apply variation of parameters technique for higher-order ODEs | * Apply variation of parameters technique for higher-order ODEs | ||
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* Ahmad and Ambrosetti 2014, Ch. 5 | * Ahmad and Ambrosetti 2014, Ch. 5 | ||
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− | * [[Method of Undetermined Coefficients (Higher Order)]] | + | * [[Method of Undetermined Coefficients|Method of Undetermined Coefficients (Higher Order)]] |
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* [[Method of Undetermined Coefficients (2nd Order)]] | * [[Method of Undetermined Coefficients (2nd Order)]] | ||
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* Ahmad and Ambrosetti 2014, Ch. 6 | * Ahmad and Ambrosetti 2014, Ch. 6 | ||
|| | || | ||
− | * [[Linear Differential Equations (Higher Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (Higher Order)]] |
|| | || | ||
− | * [[Linear Differential Equations (1st Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]] |
− | * [[Variation of Parameters (Higher Order)]]. | + | * [[Variation Of Parameters|Variation of Parameters (Higher Order)]]. |
− | * [[Method of Undetermined Coefficients (Higher Order)]]. | + | * [[Method of Undetermined Coefficients|Method of Undetermined Coefficients (Higher Order)]]. |
|| | || | ||
* Methods for linear higher-order ODEs | * Methods for linear higher-order ODEs | ||
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* [[Algebraic Equations]] | * [[Algebraic Equations]] | ||
* Direct methods for second and higher-order ODEs: | * Direct methods for second and higher-order ODEs: | ||
− | :- [[Variation of Parameters (Higher Order)]] | + | :- [[Variation Of Parameters|Variation of Parameters (Higher Order)]] |
− | :- [[Method of Undetermined Coefficients (Higher Order)]] | + | :- [[Method of Undetermined Coefficients|Method of Undetermined Coefficients (Higher Order)]] |
|| | || | ||
* Evaluate the exact solutions of important classes of differential equations such as second order differential equations as well as some higher order differential equations. | * Evaluate the exact solutions of important classes of differential equations such as second order differential equations as well as some higher order differential equations. | ||
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* [[Power Series Solutions]] | * [[Power Series Solutions]] | ||
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− | * [[Power Series | + | * [[Power Series Induction]] |
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Apply power series method to evaluate solutions of first-order and second-order ODEs. | Apply power series method to evaluate solutions of first-order and second-order ODEs. | ||
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* [[Laplace Transform to ODEs]] | * [[Laplace Transform to ODEs]] | ||
|| | || | ||
− | * [[Linear Equations]] | + | * [[Linear Differential Equations|Linear Equations]] |
* [[Laplace Transform]] | * [[Laplace Transform]] | ||
* [[Inverse Laplace Transform]] | * [[Inverse Laplace Transform]] | ||
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* Ahmad and Ambrosetti 2014, Ch. 11 | * Ahmad and Ambrosetti 2014, Ch. 11 | ||
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− | * [[Laplace Transform to Systems of ODEs]] | + | * [[Laplace Transform to ODEs|Laplace Transform to Systems of ODEs]] |
|| | || | ||
* [[Solutions of Linear Systems]]. | * [[Solutions of Linear Systems]]. | ||
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|| | || | ||
* [[Separation of Variables (1st Order)]] | * [[Separation of Variables (1st Order)]] | ||
− | * [[Homogeneous Differential Equations (1st Order)]] | + | * [[Homogeneous Differential Equations|Homogeneous Differential Equations (1st Order)]] |
− | * [[Linear Differential Equations (1st Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (1st Order)]] |
* [[Integrating Factor]] | * [[Integrating Factor]] | ||
* [[Bernoulli Equations (1st Order)]] | * [[Bernoulli Equations (1st Order)]] | ||
− | * [[Exact Differential Equations (1st Order)]] | + | * [[Exact Differential Equations|Exact Differential Equations (1st Order)]] |
* [[Reduction of the Order]] | * [[Reduction of the Order]] | ||
* [[Method of Undetermined Coefficients (2nd Order)]] | * [[Method of Undetermined Coefficients (2nd Order)]] | ||
* [[Non-linear 2nd Order ODEs]] | * [[Non-linear 2nd Order ODEs]] | ||
− | * [[Variation of Parameters (Higher Order)]] | + | * [[Variation Of Parameters|Variation of Parameters (Higher Order)]] |
− | * [[Method of Undetermined Coefficients (Higher Order)]] | + | * [[Method of Undetermined Coefficients|Method of Undetermined Coefficients (Higher Order)]] |
− | * [[Linear Differential Equations (Higher Order)]] | + | * [[Linear Differential Equations|Linear Differential Equations (Higher Order)]] |
* [[Power Series Solutions]] | * [[Power Series Solutions]] | ||
* [[Laplace Transform to ODEs]] | * [[Laplace Transform to ODEs]] | ||
− | * [[Laplace Transform to Systems of ODEs]] | + | * [[Laplace Transform to ODEs|Laplace Transform to Systems of ODEs]] |
|| | || | ||
* Apply all solutions methods discussed. | * Apply all solutions methods discussed. | ||
|} | |} |
Latest revision as of 12:24, 27 November 2021
Course Catalog
MAT 3613. Differential Equations I. (3-0) 3 Credit Hours.
Prerequisite: Completion of or concurrent enrollment in MAT2233. Basic notions of differential equations, solution of first-order equations and linear equations with constant coefficients, nth-order initial value problems, Laplace transforms, and may include additional topics such as power series solutions of differential equations, linear systems, and stability. Generally offered: Fall, Spring, Summer. Differential Tuition: $150.
Text
Ahmad, S., & Ambrosetti, A. (2014). textbook on Ordinary Differential Equations (Vol. 73). Springer
Topics List
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Apply power series method to evaluate solutions of first-order and second-order ODEs. | ||
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Apply power series method to evaluate solutions of first-order and second-order ODEs. | |
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