Department(s)
Course Description
(3-3-0) Core Area 090 This course is taken for academic credit. (Prerequisite: MATH 2414) Students will earn an A, B, C, D, F, or W. Ordinary differential equations, including linear equations, systems of equations, equations with variable coefficients, existence and uniqueness of solutions, series solutions, singular points, transform methods and boundary value problems; application of differential equations to real-world problems.
Academic Level
Undergraduate Credit
CIP Code
27.0101 - Mathematics, General
Course Type (Attributes)
General Academic (ACGM) (ACGM)
Locations
Athens (01), Terrell Satellite (03), Online (06), Palestine Satellite (02)
This is a Coursedog only field and is not integrated with the SIS.
Objective
Identify homogeneous equations, homogeneous equations with constant coefficients, and exact and linear differential equations.
Objectives
Identify homogeneous equations, homogeneous equations with constant coefficients, and exact and linear differential equations.
Objective
Solve ordinary differential equations and systems of equations using:
Objectives
Solve ordinary differential equations and systems of equations using:
Direct integration
Separation of variables
Reduction of order
Methods of undetermined coefficients and variation of parameters
Series solutions
Operator methods for finding particular solutions
Laplace transform methods
Direct integration
Separation of variables
Reduction of order
Methods of undetermined coefficients and variation of parameters
Series solutions
Operator methods for finding particular solutions
Laplace transform methods
Objective
Determine particular solutions to differential equations with given boundary conditions or initial conditions.
Objectives
Determine particular solutions to differential equations with given boundary conditions or initial conditions.
Objective
Analyze real-world problems in fields such as Biology, Chemistry, Economics, Engineering, and Physics, including problems related to population dynamics, mixtures, growth and decay, heating and cooling, electronic circuits, and Newtonian Mechanics.
Objectives
Analyze real-world problems in fields such as Biology, Chemistry, Economics, Engineering, and Physics, including problems related to population dynamics, mixtures, growth and decay, heating and cooling, electronic circuits, and Newtonian mechanics.