Brief Description of Course:
Drawing from the concepts covered in Engineering Mathematics I and II, this course is designed to consolidate and advance analytical techniques for solution of ordinary differential equations; and introduces concepts fundamental to the study of other courses in Computer Engineering. The major themes covered include integral transforms, series solutions to ordinary differential equations and special functions.
Objectives of the Course:
The objectives of this course are to:
- Introduce the student to Integral Transforms and their application to the solution of Ordinary Differential Equations
- Introduce the Power Series solution technique to Ordinary Differential Equations Expose the student to some special functions fundamental to engineering specifically Gamma, Beta, Bessel and Legendre An important emphasis of the course is to develop problem solving skills and proof skills by working on specific problems in which it is natural to look at special or simpler cases in order to try to discover patterns. An integral part of the process of mathematical thinking is to wander into blind alleys, sometimes being frustrated, before ultimately obtaining a solution or proof. In this process mathematical scientists often work together with colleagues, and this group work and sharing of ideas often adds great value to a mathematical investigation. A major goal of the course is to give a balanced introductory treatment of the area of partial differential equations (PDE) so that a student appreciates their power in modelling engineering problems.
|Attachment Name||Attachment Type|
|CMG 1101 Geophysical Environment||DOC||PS|