Difference between revisions of "MAT3613"

Revision as of 09:35, 2 July 2020

Topics List

Date	Sections	Topics	Prerequisite Skills	Student Learning Outcomes
Week I	Ahmad and Ambrosetti 2014, Chaps. 1, 2, 3	Order of Differential Equations	Integration techniques.	Explain the basic notion of the order of a differential equation.
Week I	Ahmad and Ambrosetti 2014, Chaps. 1, 2, 3	Solutions of Differential Equations	Integration techniques.	Explain the basic notion of solutions of differential equations.
Week I	Ahmad and Ambrosetti 2014, Chaps. 1, 2, 3	Initial Value Problem (IVP)	Integration techniques.	Explain the basic notion of the initial values problem.
Week I	Ahmad and Ambrosetti 2014, Chaps. 1, 2, 3	Cauchy Problem	Integration techniques.	Explain the Cauchy Problem Explain the basic notion of existence and uniqueness of a solution to the Cauchy Problem.
Week I	Ahmad and Ambrosetti 2014, Chaps. 1, 2, 3	Separation of Variables (1st Order)	Integration techniques.	Determine separable differential equations of the first order. Apply direct methods to evaluate exact solutions of separable differential equations of the first order.
Week II	Ahmad and Ambrosetti 2014, Chaps. 1 and 3	Homogeneous Differential Equations (1st Order)	Integration techniques.	Determine homogeneous differential equations of the first order. Apply direct methods to evaluate exact solutions of homogeneous differential equations of the first order (substitutions). Use some differential equations as mathematical models in biology, population dynamics, mechanics and electrical circuit theory problems.
Week II	Ahmad and Ambrosetti 2014, Chaps. 1 and 3	Linear Differential Equations (1st Order)	Integration techniques.	Determine linear differential equations of the first order. Apply direct methods to evaluate exact solutions of linear differential equations of the first order (substitutions, integrating factor method). Use some differential equations as mathematical models in biology, population dynamics, mechanics and electrical circuit theory problems.
Week III	Ahmad and Ambrosetti 2014, Ch. 3	Bernoulli Equations (1st Order)	Integration techniques: - Partial Derivatives - Linear Differential Equations (1st Order)	Determine Bernoulli of the first order. Apply direct methods to evaluate exact solutions of Bernoulli of the first order.
Week III	Ahmad and Ambrosetti 2014, Ch. 3	Exact Differential Equations	The integrating factor for exact equations. Integration techniques: - Partial Derivatives - Linear Differential Equations (1st Order)	Determine Exact Differential Equations of the first order. Apply direct methods to evaluate exact solutions of Exact Differential Equations of the first order. Use the integrating factor technique for exact equations.
Week IV	Ahmad and Ambrosetti 2014, Chaps. 1-3	Overview of the solutions methods discussed so far (Chapters 1-3).	Integration techniques: - Partial Derivatives - Linear Differential Equations (1st Order) First-order differential equations: - Separation of Variables (1st Order) - Homogeneous Differential Equations (1st Order) - Linear Differential Equations (1st Order) - Bernoulli Equations (1st Order) - Exact Differential Equations	Determine the type of different classes of differential equations of the first order: separable, linear, homogeneous, Bernoulli, exact. Use direct methods to solve first order differential equations solved and not solved for the first derivative.
Week V	Ahmad and Ambrosetti 2014, Ch. 5	First-order ODEs Linear independence and Wronskian.	Linear dependence, independence of vectors. Determinants.	Linear dependence and independence of functions. Wronskian of two functions. Wronskian of two solutions of linear second-order ODEs.
Week VI	Ahmad and Ambrosetti 2014, Ch. 5	Reduction of the order. Linear homogeneous differential equations. Abel’s theorem. Fundamental solutions. Linear nonhomogeneous equations; variation of parameters. HOMEWORK # 2 – Second and higher order ODEs: Due at the beginning of Week X (extended later)	Wronskian. Algebraic equations. Determinant s.	Determine the type of different classes of differential equations of the second and higher order: linear and nonlinear, equations with constant coefficients, homogeneous and non- homogeneous. Determine fundamental solutions. Apply of the variation of parameters technique for second-order ODEs.
Week VII	Ahmad and Ambrosetti 2014, Ch. 5	Variation of parameters (continued) Method of undetermined coefficients	Variation of parameters. Method of undetermined coefficients.	Apply variation of parameters and method of undetermined coefficients techniques for second-order ODEs.
Week VIII		SPRING BREAK
Week IX		Preparation for remote instruction.
Week X	Ahmad and Ambrosetti 2014, Ch. 5	Higher order ODEs.	Methods for higher-order ODEs. Variation of parameters. Method of undetermined coefficients.	Apply variation of parameters and method of undetermined coefficients techniques for higher-order ODEs
Week XI	Ahmad and Ambrosetti 2014, Chaps. 5, 6, 10	Overview of the solutions methods for second and higher order differential equations. Collect HOMEWORK # 2 (extended deadline)	Direct methods for second and higher-order ODEs.	Evaluate the exact solutions of important classes of differential equations such as second order differential equations as well as some higher order differential equations.
Week XII	Ahmad and Ambrosetti 2014, Ch. 11	MIDTERM EXAM # 2: Second and higher-order ODEs Laplace transform. Definition. Main properties. HOMEWORK # 3 – L-transform. Applications of L-transform for ODES and systems of ODEs: Due at the beginning of Week XV	Improper integrals with infinite limits.	Definition and main properties of the Laplace transform.
Week XIII	Ahmad and Ambrosetti 2014, Ch. 11	Theorem(s) for inverse L- transforms	Derivatives of functions of complex variables.	Apply the theorem(s) for inverse L-transform.
Week XIV	Ahmad and Ambrosetti 2014, Ch. 11	Applications of L-transform to ODEs. Applications of L-transform to systems of ODEs.	Properties of the L- transform and inverse L-transform.	Apply the Laplace transform as solution technique.
Week XV	Ahmad and Ambrosetti 2014	Applications of L-transform to ODEs and systems of ODEs. Overview of the solutions methods discussed.	Solutions methods discussed.	Apply the L-transform. Apply all solutions methods discussed.
Week XVI	Ahmad and Ambrosetti 2014	Collect HOMEWORK # 3 Overview of the solutions methods discussed.	Solutions methods discussed.	Apply all solutions methods discussed.

@@ Line 48: / Line 48: @@
 * Ahmad and Ambrosetti 2014, Chaps. 1, 2, 3
 ||
-* [[SeparationOfVariables|Separation of Variables]]
+* [[SeparationOfVariables|Separation of Variables (1st Order)]]
 ||
 * Integration techniques.
@@ Line 59: / Line 59: @@
 * Ahmad and Ambrosetti 2014, Chaps. 1 and 3
 ||
-* [[HomogeneousDE|Homogeneous Differential Equations]]
+* [[HomogeneousDE|Homogeneous Differential Equations (1st Order)]]
 ||
 * Integration techniques.
@@ Line 71: / Line 71: @@
 * Ahmad and Ambrosetti 2014, Chaps. 1 and 3
 ||
-* [[LinearDE|Linear Differential Equations]]
+* [[LinearDE|Linear Differential Equations (1st Order)]]
 ||
 * Integration techniques.
@@ Line 83: / Line 83: @@
 * Ahmad and Ambrosetti 2014, Ch. 3
 ||
-* Bernoulli equations.
+* [[BernoulliEquations|Bernoulli Equations (1st Order)]]
-* Exact differential equations. The integrating factor for exact equations.
 ||
-* Integration techniques. Partial derivatives. Linear first- order differential equations.
+* Integration techniques:
+:- [[PartialDerivatives|Partial Derivatives]]
+:- [[LinearDE|Linear Differential Equations (1st Order)]]
 ||
-* Determine Bernoulli and exact differential equations of the first order. Apply direct methods to evaluate exact solutions of Bernoulli and exact differential equations of the first order. Use the integrating factor technique for exact equations.
+* Determine Bernoulli of the first order.
+* Apply direct methods to evaluate exact solutions of Bernoulli of the first order.
+|-
+|Week III
+||
+* Ahmad and Ambrosetti 2014, Ch. 3
+||
+* [[ExactDifferentialEquations|Exact Differential Equations]]
+||
+* The integrating factor for exact equations.
+* Integration techniques:
+:- [[PartialDerivatives|Partial Derivatives]]
+:- [[LinearDE|Linear Differential Equations (1st Order)]]
+||
+* Determine Exact Differential Equations of the first order.
+* Apply direct methods to evaluate exact solutions of Exact Differential Equations of the first order.
+* Use the integrating factor technique for exact equations.
 |-
 |Week IV
@@ Line 94: / Line 111: @@
 * Ahmad and Ambrosetti 2014, Chaps. 1-3
 ||
-* Collect HOMEWORK # 1 Firs-order ODEs not solved for the first derivative: Clairaut equations, Lagrange equations.
 * Overview of the solutions methods discussed so far (Chapters 1-3).
 ||
-* Integration techniques. Partial derivatives. Integrating factor methods.
+* Integration techniques:
-* First-order differential equations.
+:- [[PartialDerivatives|Partial Derivatives]]
+:- [[LinearDE|Linear Differential Equations (1st Order)]]
+* First-order differential equations:
+:- [[SeparationOfVariables|Separation of Variables (1st Order)]]
+:- [[HomogeneousDE|Homogeneous Differential Equations (1st Order)]]
+:- [[LinearDE|Linear Differential Equations (1st Order)]]
+:- [[BernoulliEquations|Bernoulli Equations (1st Order)]]
+:- [[ExactDifferentialEquations|Exact Differential Equations]]
 ||
 * Determine the type of different classes of differential equations of the first order: separable, linear, homogeneous, Bernoulli, exact.
@@ Line 107: / Line 131: @@
 * Ahmad and Ambrosetti 2014, Ch. 5
 ||
-* MDTERM EXAM # 1:
 * First-order ODEs Linear independence and Wronskian.
 ||
-* Linear dependence, independenc e of vectors.
+* Linear dependence, independence of vectors.
-* Determinant s.
+* Determinants.
 ||
 * Linear dependence and independence of functions. Wronskian of two functions. Wronskian of two solutions of linear second-order ODEs.

Difference between revisions of "MAT3613"

Revision as of 09:35, 2 July 2020

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