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Nov 23, 2024
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MAT 227 - Diff Equations with Laplace Credits: 4 Lecture Hours: 4 Lab Hours: 0 Practicum Hours: 0 Work Experience: 0 Course Type: Core Ordinary differential equations, systems of ordinary differential equations, Laplace transforms, numerical methods and applications. Prerequisite: MAT 217 or equivalent with a C- or better Competencies
- Solve First-Order Differential Equations
- Establish the existence of solutions
- Establish the uniqueness of solutions
- Graph an approximate solution by using isoclines
- Solve Variable Separable differential equations
- Solve First-Order Linear differential equations
- Solve Exact differential equations
- Find Integrating Factors to convert a differential equation to exact
- Solve Homogeneous Differential Equations
- Reduce differential equations to First Order
- Solve application problems involving various of the above
- Solve Linear Differential Equations
- Establish independence of functions by using the Wronskian
- Find the characteristic equation of Homogeneous Differential Equations with Constant Coefficients
- Solve Euler Differential Equations
- Solve differential equations by Reduction of Order
- Solve differential equations by the Method of Taylor Series
- Solve Nonhomogeneous Differential Equations
- Solve differential equations by the Method of Undetermined Coefficients
- Solve differential equations by the Method of Variation of Parameter
- Solve application problems involving various of the above
- Solve Linear Systems of Differential Equations
- Establish independence by using the Wronskian
- Solve differential equations by the Method of Elimination
- Solve differential equations by the Matrix Method
- Solve Nonhomogeneous Systems by Variation of Parameters
- Solve by the Laplace Transform
- Use the definition of Laplace Transforms to produce formulae
- Apply the Laplace Transform and The Inverse Laplace Transform to solve differential equations
- Apply the Laplace Transform and The Inverse Laplace Transform to solve systems of differential equations
- Solve differential equations using the Heaviside function
- Solve differential equations using the Dirac Delta function
- Solve by using numerical methods
- Solve differential equations and systems by using Euler’s method
- Solve differential equations and systems by using Taylor Series
- Solve differential equations and systems by using the Runge-Kutta method
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