|Author||: Brent Maxfield|
|Publisher||: Academic Press|
|Release Date||: 2009-05-22|
|ISBN 10||: 9780080912295|
|Pages||: 496 pages|
Essential Mathcad for Engineering, Science, and Math w/ CD, Second Edition, introduces the most powerful functions and features of the software and teaches their application to create comprehensive calculations for any quantitative subject. Examples from a variety of fields demonstrate the power and utility of Mathcad's tools, while also demonstrating how other software, such as Excel spreadsheets, can be incorporated effectively. A companion CD-ROM contains a full non-expiring version of Mathcad (North America only). This new edition features a new chapter that introduces the basics of Mathcad to allow the reader to begin using the program early; applied examples and problems from a wide variety of disciplines; and more thorough discussions of commonly used engineering tools – differential equations, 3D plotting, and curve fitting. Its simple, step-by-step approach makes this book an ideal text for professional engineers as well as engineering , science, and math students. *Many more applied examples and exercises from a wide variety of engineering, science, and math fields * New: more thorough discussions of differential equations, 3D plotting, and curve fitting. * Full non-expiring version of Mathcad software included on CD-ROM (North America only) * A step-by-step approach enables easy learning for professionals and students alike
|Author||: Brent Maxfield|
|Publisher||: Academic Press|
|Release Date||: 2009|
|ISBN 10||: 9780123747839|
|Pages||: 501 pages|
Using the author's considerable experience of applying Mathcad to engineering problems, Essential Mathcad introduces the most powerful functions and features of the software and teaches how to apply these to create comprehensive calculations for any quantitative subject. The simple, step-by-step approach makes this book an ideal Mathcad text for professional engineers as well as engineering , science, and math students. Examples from a variety of fields demonstrate the power and utility of Mathcad's tools, while also demonstrating how other software, such as Excel spreadsheets, can be incorporated effectively. A full version of Mathcad v15 is available by using the registration code included in the front of the book (North America only). The included software is for educational purposes only. *Many more applied examples and exercises from a wide variety of engineering, science, and math fields * New: more thorough discussions of differential equations, 3D plotting, and curve fitting, reading from files and writing to files. * Full non-expiring version of Mathcad 15 software available, by using the registration code included in the front of the book). The included software is for educational purposes only. *New: A new chapter 1 introduces many basics of Mathcad, allowing the reader to begin using the program in less time. * A step-by-step approach enables easy learning for professionals and students alike
Learn how to use PTC® Mathcad Prime® 3.0, one of the world’s leading tools for technical computing, in the context of engineering, science, and math applications. Quickly harness the power of PTC Mathcad Prime 3.0 to solve both simple and complex problems. Essential PTC® Mathcad Prime® 3.0 is perfect for college students, first-time users, and experienced Mathcad 15 users who are moving to PTC Mathcad Prime 3.0. Updated from Maxfield’s popular Essential Mathcad, this book introduces the most powerful functions and features of the new PTC Mathcad Prime 3.0 software and teaches how to apply them to create comprehensive calculations for any quantitative subject. Examples from several fields demonstrate the power and utility of PTC Mathcad’s tools while also demonstrating how users can eff ectively incorporate Microsoft® Excel spreadsheets into the software. Learn the basics faster: Chapter 1 introduces many fundamentals of Mathcad, allowing the reader to begin using the program in less time. Learn PTC Mathcad tools in context: Incorporates many applied examples and problems from a wide variety of disciplines. Thorough discussion of many PTC Mathcad tools: Units, arrays, plotting, solving, symbolic calculations, programming, algebra, calculus, differential equations, reading from files, writing to files, and incorporating MS Excel spreadsheets. Includes a link to PTC with instructions on how to purchase the PTC® Mathcad Prime® 3.0 Student Edition (The Student Edition software is intended for educational purposes only.)
Using the author’s considerable experience of applying Mathcad to engineering problems, Engineering with Mathcad identifies the most powerful functions and features of the software and teaches how to apply these to create comprehensive engineering calculations. Many examples from a variety of engineering fields demonstrate the power and utility of Mathcad’s tools, while also demonstrating how other software, such as Microsoft Excel spreadsheets, can be incorporated effectively. This simple, step-by-step approach makes this book an ideal Mathcad text for professional engineers as well as engineering and science students. A CD-ROM packaged with the book contains all the examples in the text and an evaluation version of the Mathcad software, enabling the reader to learn by doing and experiment by changing parameters. * Identifies the key Mathcad functions for creating comprehensive engineering calculations * A step-by-step approach enables easy learning for professional engineers and students alike * Includes a CD-ROM containing all the examples in the text and an evaluation version of the Mathcad software
****ESSENTIALS OF MATHCAD FOR YOUR STUDENTS. A QUICK REFERENCE REVIEW!!Mathcad: A Tool for Engineering Problem Solving explains how to use Mathcad 13 (Student and Standard), This book is current with the latest release of mathcad, with the focus on the fundamentals, is enriched with great motivating applications, solid homework problems, appealing to both engineers and scientists.
|Author||: Stephen Philip Tubbs|
|Release Date||: 2009-12|
|ISBN 10||: 9780981975313|
|Pages||: 108 pages|
The object of this book is to quickly teach an electrical engineer or technologist how to use Mathcad. Mathcad simultaneously solves and documents calculations. It is oriented toward non-programmers who need to solve numerical engineering problems. Users like Mathcad because its programs follow the natural format of manual calculations. Complete keystroke-to-keystroke details are provided for problem solution and documentation. The reader learns by example. As a calculating tool, Mathcad solves equations. The equations are entered into Mathcad in a format similar to that used in manual calculations. It will solve mesh equations with real or complex numbers and will solve differential equations. Outputs can be numerical or graphical. Mathcad will also do symbolic calculations, meaning that it can reduce complex systems of equations to simpler equations. Documenting calculations is a major reason that Mathcad is used in modern industry. Calculations that in the past might have been recorded in notebooks, or even on easily lost scraps of paper, are now done with Mathcad to take advantage of the accuracy, neatness, traceability, and standardization it provides. Mathcad is available in a free 30 day demonstration version. The key features of Mathcad can be learned in 30 days.
|Author||: Ismail Tosun|
|Publisher||: CRC Press|
|Release Date||: 2019-06-03|
|ISBN 10||: 1351374621|
|Pages||: 434 pages|
Fundamental Mass Transfer Concepts in Engineering Applications provides the basic principles of mass transfer to upper undergraduate and graduate students from different disciplines. This book outlines foundational material and equips students with sufficient mathematical skills to tackle various engineering problems with confidence. It covers mass transfer in both binary and multicomponent systems and integrates the use of Mathcad® for solving problems. This textbook is an ideal resource for a one-semester course. Key Features The concepts are explained with the utmost clarity in simple and elegant language Presents theory followed by a variety of practical, fully-worked example problems Includes a summary of the mathematics necessary for mass transfer calculations in an appendix Provides ancillary Mathcad® subroutines Includes end-of-chapter problems and a solutions manual for adopting instructors
Based on a teach-yourself approach, the fundamentals of MATLAB are illustrated throughout with many examples from a number of different scientific and engineering areas, such as simulation, population modelling, and numerical methods, as well as from business and everyday life. Some of the examples draw on first-year university level maths, but these are self-contained so that their omission will not detract from learning the principles of using MATLAB. This completely revised new edition is based on the latest version of MATLAB. New chapters cover handle graphics, graphical user interfaces (GUIs), structures and cell arrays, and importing/exporting data. The chapter on numerical methods now includes a general GUI-driver ODE solver. * Maintains the easy informal style of the first edition * Teaches the basic principles of scientific programming with MATLAB as the vehicle * Covers the latest version of MATLAB
|Author||: Robert Boyd|
|Publisher||: CRC Press|
|Release Date||: 2018-10-03|
|ISBN 10||: 1482224070|
|Pages||: 216 pages|
Written for the practicing electronics professional, Tolerance Analysis of Electronic Circuits Using MATHCADä offers a comprehensive, step-by-step treatment of methods used to perform analyses essential to the design process of circuit cards and systems of cards, including: worst-case analysis, limits for production testing, component stress analysis, determining if a design meets specification limits, and manufacturing yield analysis Using a practical approach that allows engineers and technicians to put the techniques directly into practice, the author presents the mathematical procedures used to determine performance limits. The topics and techniques discussed include extreme value and root-sum-square analysis using symmetric and asymmetric tolerance, Monte Carlo analysis using normal and uniform distributions, sensitivity formulas, tolerance analyses of opamp offsets, and anomalies of high-Q ac circuits.
Provides a thorough explanation of the basic properties of materials; of how these can be controlled by processing; of how materials are formed, joined and finished; and of the chain of reasoning that leads to a successful choice of material for a particular application. The materials covered are grouped into four classes: metals, ceramics, polymers and composites. Each class is studied in turn, identifying the families of materials in the class, the microstructural features, the processes or treatments used to obtain a particular structure and their design applications. The text is supplemented by practical case studies and example problems with answers, and a valuable programmed learning course on phase diagrams.
"When Jesse stops by The Curiosity Shop, her favorite place to snoop around, she uncovers an old painting in a dusty, antique steamer trunk. But what happens later that night when Jesse is startled by a creepy eyeball? Find out how Professor Peach helps her use the skills of an artist to uncover the mystery of The Hint in the Peeping Pupil"--
Developed with stress analysts handling multidisciplinary subjects in mind, and written to provide the theories needed for problem solving and stress analysis on structural systems, Essentials of Mechanical Stress Analysis presents a variety of relevant topics—normally offered as individual course topics—that are crucial for carrying out the analysis of structures. This work explores concepts through both theory and numerical examples, and covers the analytical and numerical approaches to stress analysis, as well as isotropic, metallic, and orthotropic composite material analyses. Comprised of 13 chapters, this must-have resource: Establishes the fundamentals of material behavior required for understanding the concepts of stress analysis Defines stress and strain, and elaborates on the basic concepts exposing the relationship between the two Discusses topics related to contact stresses and pressure vessels Introduces the different failure criteria and margins of safety calculations for ductile and brittle materials Illustrates beam analysis theory under various types of loading Introduces plate analysis theory Addresses elastic instability and the buckling of columns and plates Demonstrates the concept of fatigue and stress to life-cycle calculations Explores the application of energy methods for determining deflection and stresses of structural systems Highlights the numerical methods and finite element techniques most commonly used for the calculation of stress Presents stress analysis methods for composite laminates Explains fastener and joint connection analysis theory Provides MathCAD® sample simulation codes that can be used for fast and reliable stress analysis Essentials of Mechanical Stress Analysis is a quintessential guide detailing topics related to stress and structural analysis for practicing stress analysts in mechanical, aerospace, civil, and materials engineering fields and serves as a reference for higher-level undergraduates and graduate students.