Basic Technical Physics
Basic Technical Physics

Author: Paul E. Tippens

Publisher: McGraw-Hill Science, Engineering & Mathematics

Published: 1989

Total Pages: 515

ISBN-13: 9780070650138

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This one-semester survey of principles of physics for technical students emphasizes practical applications that represent a broad coverage of physics as it relates to the various technical areas. The concepts presented allow students to relate the principles of physics to practical job-related applications. The questions and problems at the end of each chapter have been carefully chosen for their realistic application to industry and for their instructional value. The only mathematics prerequisite is the algebra necessary to understand simple formulas. For teaching convenience, the more difficult sections of the text, which are optional, are identified by asterisks in the table of contents.

Unified Technical Concepts
Unified Technical Concepts

Author: Center for Occupational Research and Development (U.S.)

Publisher: Waco, Tex. : Center for Occupational Research and Development

Published: 1990

Total Pages: 598

ISBN-13:

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This textbook is a course of instruction for technicians at the postsecondary level. It presents technical pronciples in a manner that makes them readily understood and applicable in different technologies-mechanical, fluid, electrical, thermal-and combinations. It blends basic technical principes with laboratory practice that involves realistic devices used by technicians in their everyday work.

Technical Physics
Technical Physics

Author: P. J. Ouseph

Publisher: John Wiley & Sons

Published: 1986

Total Pages: 714

ISBN-13:

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Introducing technology students to basic concepts of physics and its applications through interesting, practical examples (such as karate as an example of impulse), this book covers topics in statics, mechanics, fluids, heat, vibrations and sound, light, atomic physics, nuclear physics and electronics. Special applications include simple machines, heat engines, optical instruments and solid-state electronics. The text also covers a number of applications not treated in other textbooks, including integrated circuits, x-ray identification of elements, optical spectroscopy and holography, and the use of density measurement as a tool for nondestructive chemical analysis. Each chapter contains a large number of worked examples.

Mathematics and Physics for Nanotechnology
Mathematics and Physics for Nanotechnology

Author: Paolo Di Sia

Publisher: CRC Press

Published: 2019-02-05

Total Pages: 230

ISBN-13: 0429650949

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Nanobiotechnology is a new interdisciplinary science with revolutionary perspectives arising from the fact that at nanosize the behaviour and characteristics of matter change with respect to ordinary macroscopic dimensions. Nanotechnology is a new way for producing and getting materials, structures and devices with greatly improved or completely new properties and functionalities. This book provides an introductory overview of the nanobiotechnology world along with a general technical framework about mathematical modelling through which we today study the phenomena of charge transport at the nanometer level. Although it is not a purely mathematics or physics book, it introduces the basic mathematical and physical notions that are important and necessary for theory and applications in nanobiotechnology. Therefore, it can be considered an extended formulary of basic and advanced concepts. It can be the starting point for discussions and insights and can be used for further developments in mathematical–physical modelling linked to the nanobiotechnology world. The book is dedicated to all those who follow their ideas in life and pursue their choices with determination and firmness, in a free and independent way.

The Physics of Information Technology
The Physics of Information Technology

Author: Neil Gershenfeld

Publisher: Cambridge University Press

Published: 2000-10-16

Total Pages: 390

ISBN-13: 9780521580441

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The Physics of Information Technology explores the familiar devices that we use to collect, transform, transmit, and interact with electronic information. Many such devices operate surprisingly close to very many fundamental physical limits. Understanding how such devices work, and how they can (and cannot) be improved, requires deep insight into the character of physical law as well as engineering practice. The book starts with an introduction to units, forces, and the probabilistic foundations of noise and signalling, then progresses through the electromagnetics of wired and wireless communications, and the quantum mechanics of electronic, optical, and magnetic materials, to discussions of mechanisms for computation, storage, sensing, and display. This self-contained volume will help both physical scientists and computer scientists see beyond the conventional division between hardware and software to understand the implications of physical theory for information manipulation.