This course covers the topics of first order ordinary differential equations and applications, linear higher order differential equations and applications, systems of linear differential equations, series solutions of differential equations and solutions, and Laplace transforms.
Course Learning Outcomes:
1) Students will be able to model and solve problems leading to firstorder differential equations.
2) Students will be able to use symbolic methods to solve second order linear differential equations, and first order linear systems of differential equations.
3) Students will be able to compute Laplace transforms and inverse Laplace transforms, and to apply these to solve differential equations.
4) Students will be able to use direction fields and phase portraits to qualitatively analyze the solutions to differential equations.
3.000 Credit hours
3.000 Lecture hours
Levels: Undergraduate
Schedule Types: Lecture, Tutorial
Computer Science & Mathematics Division
Mathematics Department
Restrictions:
May not be enrolled in one of the following Programs:
Freshman Science
Freshman Arts
May not be enrolled in one of the following Degrees:
Executive MBA
Prerequisites:
Undergraduate level MTH 201 Minimum Grade of D
