A mathematical model of a physical system provides the engineer with the insight and intuitive understanding required to make efficient system design changes or other modifications. In this context, a simple formula is often worth a thousand numerical simulations, and connections between different control parameters can be immediately revealed that might otherwise take hours or weeks to deduce from a computational analysis. This book supplies the undergraduate engineer with the basic mathematical tools for developing and understanding such models, and is also suitable as a review for engineering graduate students. A firm grasp of the topics covered will also enable the working engineer (educated to bachelor's degree level) to understand, write and otherwise make sensible use of technical reports and papers.
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Contents: - Linear Ordinary Differential Equations
- Vector Calculus
- Complex Variables
- Partial Differential Equations
- Special Functions
- Matrix Algebra and Linear Equations
- Variational Calculus
Readership: Engineering graduate and undergraduate students, and working engineers.
Key Features:- Equips the undergraduate engineer with the basic mathematical tools for developing and understanding mathematical models of physical systems
- Enables the working engineer to understand, write and effectively utilise technical reports and papers
- Forms a compact review suitable for first-year engineering graduate students
