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Nov 22, 2024
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MA 235 - Differential Equations4 lecture hours 0 lab hours 4 credits Course Description This course discusses the solution of first-order differential equations, the solution of higher-order differential equations with constant coefficients, applications of differential equations, and an introduction to the method of Laplace transforms applied to the solution of certain differential equations. (prereq: MA 231 or MA 2314 ) Course Learning Outcomes Upon successful completion of this course, the student will be able to:
- Determine the solution of first-order differential equations by the method of separation of variables
- Determine the solution of first-order differential equations having homogeneous coefficients
- Determine the solution of exact first-order differential equations
- Determine appropriate integrating factors for first-order linear differential equations
- Apply and solve first-order differential equations of selected physical situations
- Determine the general and particular solutions of higher-order linear homogeneous differential equations with constant coefficients
- Determine the general and particular solutions of certain nonlinear second-order homogeneous differential equations with constant coefficients using the methods of Undetermined Coefficients and Variation of Parameters
- Apply and solve second-order differential equations of selected physical situations
- Determine the Laplace transform of selected elementary functions (such as polynomials and exponential and trigonometric functions having linear arguments)
- Determine a function having a given Laplace transform; that is, determine the inverse Laplace transform of a function
- Solve linear differential equation of various orders using the method of Laplace transforms
Prerequisites by Topic
- Determinants
- Solution of algebraic equations
- Limits including L’Hopital’s rule
- Differentiation of algebraic and transcendental functions
- Integration (especially improper and the method of partial fractions)
- Factoring of polynomials
Course Topics
- Basic concepts
- Solution of first-order differential equations by separation of variables
- Solution of exact equations
- Solution of first-order linear differential equations
- Solution of first-order differential equations using numerical methods
- Solution of physical situations that can be modeled by first-order differential equations
- Solution of higher order homogeneous differential equations with constant coefficients
- Solution of non-homogeneous higher-order differential equations using the method of Undetermined Coefficients
- Solution of non-homogeneous higher-order differential equations using the method of Variation of Parameters
- Solution of physical situations that can be modeled by higher-order differential equations
- Introduction of Laplace transforms
- Laplace transforms of elementary functions
- Inverse Laplace transforms
- Solution of linear differential equations with constant coefficients using Laplace transforms
- Applications of Laplace transforms
Coordinator Dr. Chunping Xie
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