Introductory engineering mathematics / David Reeping and Kenneth Reid.
By: Reeping, David [author]
Contributor(s): Reid, Kenneth
Language: English Series: General engineering and K-12 engineering education collectionPublisher: New York, NY : Monacelli Press, 2017Description: xiv, 171 pages : illustrations ; 23 cmContent type: txt Media type: n Carrier type: volumeISBN: 9781606509098Subject(s): Engineering mathematicsDDC classification: 620.00151| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
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BOOK
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COLLEGE LIBRARY | COLLEGE LIBRARY SUBJECT REFERENCE | 620.00151 R258 2017 (Browse shelf) | Available | CITU-CL-48682 |
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| 620.00151 B5324 2017 Higher engineering mathematics / | 620.00151 J2333 2019 Advanced modern engineering mathematics / | 620.00151 P18 2001 Introduction to MATLAB 6 for engineers / | 620.00151 R258 2017 Introductory engineering mathematics / | 620.00151 Z651 2018 Advanced engineering mathematics / | 620.00151 Z651 2018 Advanced engineering mathematics / | 620.0015118 H728 2004 Introduction to engineering programming : solving problems with algorithms / |
Includes index.
1. Motivation for engineering mathematics --
1.1 Abstraction in engineering --
1.2 Engineering systems as a starting point 2. Solving common engineering problems --
2.1 Choice of coordinate systems --
2.1.1 Rectangular coordinates --
2.1.1.1 Moving to a third dimension --
2.1.2 Polar coordinates --
2.1.3 Vectors --
2.1.3.1 Vector addition and subtraction --
2.1.3.2 Vector multiplication --
2.1.4 Manipulating space --
2.1.5 Complex numbers --
2.2 Graphical relationships --
angles --
2.2.1 Useful angle theorems --
2.2.2 Ideas in trigonometry --
2.2.2.1 Laws of sines and cosines 3. Employing functions --
3.1 Relations to functions --
3.1.1 Composition --
3.1.2 Inverse functions --
3.2 Fitting data --
3.3 Locating roots of a function --
3.3.1 Locating roots within a tolerance, or "getting close enough" --
3.4 Functional behavior 4. Using calculus to solve problems --
4.1 Differential calculus --
4.2 Integral calculus 5. Inputs and outputs --
5.1 Classifications --
5.2 Common manipulations --
5.3 Special inputs --
5.3.1 Heaviside unit step, the step function --
5.3.2 Dirac's Delta function: the impulse function --
5.4 Inputs in terms of an infinite series --
5.4.1 Power series --
5.4.2 Fourier series 6. Engineering systems --
6.1 A summary and where to go from here --
Index.
This text serves as a concise introduction to the ocean of information collectively known as "Engineering Mathematics." Admittedly, compiling everything into a short book that is useful to any audience is an impossible task; therefore, we picked a few main ideas holding up the mathematics within the engineering curriculum instead of stuffing all of the details into such a small package. Our strategy in writing this text was to address conceptual understanding as often as possible; the informal "meet and greets" with common mathematical objects are intended to provide an intuitive basis for the formalized study within an engineering or mathematics course. The intent is to present mathematics as a useful tool within engineering without becoming too bogged down with formalities; therefore, we do not provide rigorous proofs of major theorems. Similarly, we will refer to a particular field for additional information if desired whenever a topic is beyond the scope of the text. We do assume a level of mathematical maturity that amounts to high school Algebra. Whether you are a math or science instructor tasked to teach an engineering class, a high school student looking into engineering, or an engineering student already, we hope you are able to walk away from this text with tangible outcomes--maybe even a refined perspective on the subject.
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