Montgomery College 2019-2020 Catalog 
    Dec 11, 2023  
Montgomery College 2019-2020 Catalog [ARCHIVED CATALOG]

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MATH 282 - Differential Equations

First order differential equations; higher order linear differential equations and systems of linear equations; solution by power series and numerical methods; the Laplace transform and some applications. PREREQUISITE(S): A grade of C or better in MATH 182  or equivalent, or consent of department. Three hours each week. Formerly MA 282.

3 semester hours

Course Outcomes:
Upon course completion, a student will be able to:

  • Use qualitative and numerical methods to analyze the family of solutions to a first-order differential equation, particularly an autonomous equation.
  • Solve first-order separable and linear differential equations and corresponding initial-value problems.
  • Determine the domain of a solution and describe long-term behavior of a solution.
  • Know and be able to apply the theorem for existence and uniqueness of solutions to a first-order differential equation.
  • Write and solve a first-order initial-value problem that models a practical situation involving a rate of change.
  • Rewrite a second-order differential equation as a system of first-order equations.
  • Use qualitative and numerical methods to describe and analyze the family of solutions to a first-order system.
  • Write a first-order system in matrix form, find the eigenvalues and write the general solution to the system.
  • Assume exponential solutions and solve a homogeneous or non-homogeneous linear second-order differential equation with constant coefficients.
  • Understand and interpret the solutions to a second-order equation in terms of harmonic oscillator.
  • Use Laplace transforms to solve first- and second-order initial-value problems when the differential equation may be forced by a continuous or discontinuous function.
  • Use an advanced software tool (Maple, MATLAB, Mathematica, ODE software, and the like) appropriately and effectively to aid in understanding the behavior of solutions to differential equations.

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