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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<!-- /remove -->Contents: Linear Ordinary Differential EquationsVector CalculusComplex VariablesPartial Differential EquationsSpecial FunctionsMatrix Algebra and Linear EquationsVariational CalculusReadership: 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 systemsEnables the working engineer to understand, write and effectively utilise technical reports and papersForms a compact review suitable for first-year engineering graduate students