Advanced modern engineering mathematics / Glyn James and Phil Dyke.
Material type: TextPublisher: Harlow, United Kingdom : Pearson Education, 2018Edition: Fifth editionDescription: xxii, 987 pages : illustrations ; 25 cmContent type:- text
- unmediated
- volume
- 9781292174341
- 620.00151 JA.A 2018 23
- TA330 .A38 2018
Item type | Current library | Collection | Call number | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|
Books | The Knowledge Hub Library | Engineering | 620.00151 JA.A 2018 (Browse shelf(Opens below)) | Available | 210141 | ||
Books | The Knowledge Hub Library | Engineering | 620.00151 JA.A 2018 (Browse shelf(Opens below)) | Available | 210142 | ||
Books | The Knowledge Hub Library | Engineering | 620.00151 JA.A 2018 (Browse shelf(Opens below)) | Available | 190393 |
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620.00151 BI.E 2017 Engineering mathematics / | 620.00151 BI.E 2017 Engineering mathematics / | 620.00151 BI.E 2017 Engineering mathematics / | 620.00151 JA.A 2018 Advanced modern engineering mathematics / | 620.00151 JA.A 2018 Advanced modern engineering mathematics / | 620.00151 JA.A 2018 Advanced modern engineering mathematics / | 620.00151 SH.H 2013 Heat transfer : lessons with examples solved by MATLAB / |
Includes index.
Matrix analysis -- Numerical solution of ordinary differential equations -- Vector calculus -- Functions of a complex variable -- Laplace transforms -- The z transform -- Fourier series -- The Fourier transform -- Partial differential equations -- Optimization -- Applied probability and statistics.
The philosophy of 'learning by doing' is continued in this fifth edition. It provides treatments of some of the more advanced areas of mathematics used in engineering, particularly those used as tools for computer-based system modelling analysis and design. $b Building on the foundations laid in the companion text Modern Engineering Mathematics, this book gives an extensive treatment of some of the advanced areas of mathematics that have applications in various fields of engineering, particularly as tools for computer-based system modelling, analysis and design. The philosophy of learning by doing helps students develop the ability to use mathematics with understanding to solve engineering problems. A wealth of engineering examples and the integration of MATLAB, MAPLE and R further support students.
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