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Fundamentals of Technical Graphics concentrates on the main concepts and principles of technical graphics. The book is divided into two volumes: volume one contains chapters one to five, whereas volume two comprises of chapters six to ten. Volume one covers the topics of drafting guidelines, free hand sketching, computer design drafting (CDD) systems, geometric and shape construction, and standard multiview drawing creation. Volume two treats the topics of auxiliary views, section views, basic dimensioning, isometric drawings, and working drawings. The appendices provide introductory discussions about screw fasteners, general and geometric tolerancing, and surface quality and symbols. The book is written with current drafting standards of American National Standards Institute/American Society for Mechanical Engineers (ANSI/ASME) in mind. The style is plain and discussions are straight to the point. Its principle goal is meeting the needs of first- and second-year students in engineering, engineering technology, design technology, and related disciplines.
Presents a contemporary approach to teach the engineering graphics skills. This title covers design concepts, the use of CAD, the basic visualization and sketching techniques that enable students to create and communicate graphic ideas effectively. It includes examples of how graphics communication pertains to 'real-world' engineering design
Drawing on an impressive roster of experts in the field, Fundamentals of Computer Graphics, Fourth Edition offers an ideal resource for computer course curricula as well as a user-friendly personal or professional reference. Focusing on geometric intuition, the book gives the necessary information for understanding how images get onto the screen by using the complementary approaches of ray tracing and rasterization. It covers topics common to an introductory course, such as sampling theory, texture mapping, spatial data structure, and splines. It also includes a number of contributed chapters from authors known for their expertise and clear way of explaining concepts. Highlights of the Fourth Edition Include: Updated coverage of existing topics Major updates and improvements to several chapters, including texture mapping, graphics hardware, signal processing, and data structures A text now printed entirely in four-color to enhance illustrative figures of concepts The fourth edition of Fundamentals of Computer Graphics continues to provide an outstanding and comprehensive introduction to basic computer graphic technology and theory. It retains an informal and intuitive style while improving precision, consistency, and completeness of material, allowing aspiring and experienced graphics programmers to better understand and apply foundational principles to the development of efficient code in creating film, game, or web designs. Key Features Provides a thorough treatment of basic and advanced topics in current graphics algorithms Explains core principles intuitively, with numerous examples and pseudo-code Gives updated coverage of the graphics pipeline, signal processing, texture mapping, graphics hardware, reflection models, and curves and surfaces Uses color images to give more illustrative power to concepts
An introduction to the basic concepts of 3D computer graphics that offers a careful mathematical exposition within a modern computer graphics application programming interface. Computer graphics technology is an amazing success story. Today, all of our PCs are capable of producing high-quality computer-generated images, mostly in the form of video games and virtual-life environments; every summer blockbuster movie includes jaw-dropping computer generated special effects. This book explains the fundamental concepts of 3D computer graphics. It introduces the basic algorithmic technology needed to produce 3D computer graphics, and covers such topics as understanding and manipulating 3D geometric transformations, camera transformations, the image-rendering process, and materials and texture mapping. It also touches on advanced topics including color representations, light simulation, dealing with geometric representations, and producing animated computer graphics. The book takes special care to develop an original exposition that is accessible and concise but also offers a clear explanation of the more difficult and subtle mathematical issues. The topics are organized around a modern shader-based version of OpenGL, a widely used computer graphics application programming interface that provides a real-time “rasterization-based” rendering environment. Each chapter concludes with exercises. The book is suitable for a rigorous one-semester introductory course in computer graphics for upper-level undergraduates or as a professional reference. Readers should be moderately competent programmers and have had some experience with linear algebra. After mastering the material presented, they will be on the path to expertise in an exciting and challenging field.
The Graphics Drawing Workbook is meant to be used with either Technical Graphics Communications 2nd Edition or Fundamentals of Graphics Communications 2nd Edition. However the workbook can be used with any good reference text including Graphics communication for engineers by this author.There are workbook problems for every major topic normally taught in an engineering or technical drawing course. Most of the problems can be drawn with instruments or sketched. a special emphasis has been put on freehand sketching in this workbook in response to the increased use of CAD in many technical drawing courses. It is expected that the instructor will supplement these problems with others from the text to fully reinforce technical drawing topics.
Technical Drawing 101 covers topics ranging from the most basic, such as making freehand, multiview sketches of machine parts, to the advanced—creating an AutoCAD dimension style containing the style settings defined by the ASME Y14.5-2009 Dimensioning and Tolerancing standard. But un-like the massive technical drawing reference texts on the market, Technical Drawing 101 aims to present just the right mix of information and projects that can be reasonably covered by faculty, and assimilated by students, in one semester. Both mechanical and architectural projects are introduced to capture the interest of more students and to offer a broader appeal. The authors have also created extensive video training (101 videos, nearly 11 hours total) that is included with every copy of the book. In these videos the authors start of by getting students comfortable with the user interface and demonstrating how to use many of AutoCAD's tools and commands. The videos progress to more advanced topics where the authors walk students through completing several of the projects in the book. The CAD portion of the text incorporates drafting theory whenever possible and covers the basics of drawing setup (units, limits, and layers), the tools of the Draw, Modify, and Dimension toolbars, and the fundamentals of 3D modeling. By focusing on the fundamental building blocks of CAD, Technical Drawing 101 provides a solid foundation for students going on to learn advanced CAD concepts and techniques (paper space, viewports, xrefs, annotative scaling, etc.) in intermediate CAD courses. In recognition of the diverse career interests of our students, Technical Drawing 101 includes projects in which students create working drawings for a mechanical assembly as well as for an architectural project. We include architectural drawing because our experience has shown that many (if not most) first-semester drafting students are interested in careers in the architectural design field, and that a traditional technical drawing text, which focuses solely on mechanical drawing projects, holds little interest for these students. The multidisciplinary approach of this text and its supporting materials is intended to broaden the appeal of the curriculum and increase student interest and, it is hoped, future enrollments.
Fundamentals of Technical Graphics concentrates on the main concepts and principles of technical graphics. The book is divided into two volumes: volume one contains chapters one to five, whereas volume two comprises of chapters six to ten. Volume one covers the topics of drafting guidelines, free hand sketching, computer design drafting (CDD) systems, geometric and shape construction, and standard multiview drawing creation. Volume two treats the topics of auxiliary views, section views, basic dimensioning, isometric drawings, and working drawings. The appendices provide introductory discussions about screw fasteners, general and geometric tolerancing, and surface quality and symbols. The book is written with current drafting standards of American National Standards Institute/American Society for Mechanical Engineers (ANSI/ASME) in mind. The style is plain and discussions are straight to the point. Its principle goal is meeting the needs of first- and second-year students in engineering, engineering technology, design technology, and related disciplines.
Technical Drawing 101 covers topics ranging from the most basic, such as making freehand, multiview sketches of machine parts, to the advanced—creating an AutoCAD dimension style containing the style settings defined by the ASME Y14.5-2009 Dimensioning and Tolerancing standard. But unlike the massive technical drawing reference texts on the market, Technical Drawing 101 aims to present just the right mix of information and projects that can be reasonably covered by faculty, and assimilated by students, in one semester. Both mechanical and architectural projects are introduced to capture the interest of more students and to offer a broader appeal. The authors have also created extensive video training (137 videos, 18.5 hours total) that is included with every copy of the book. In these videos the authors start off by getting students comfortable with the user interface and demonstrating how to use many of AutoCAD's commands and features. The videos progress to more advanced topics where the authors walk students through completing several of the projects in the book. The CAD portion of the text incorporates drafting theory whenever possible and covers the basics of drawing setup (units, limits, and layers), the tools of the Draw, Modify, and Dimension toolbars, and the fundamentals of 3D modeling. By focusing on the fundamental building blocks of CAD, Technical Drawing 101 provides a solid foundation for students going on to learn advanced CAD concepts and techniques (paper space, viewports, xrefs, annotative scaling, etc.) in intermediate CAD courses. In recognition of the diverse career interests of our students, Technical Drawing 101 includes projects in which students create working drawings for a mechanical assembly as well as for an architectural project. We include architectural drawing because our experience has shown that many (if not most) first-semester drafting students are interested in careers in the architectural design field, and that a traditional technical drawing text, which focuses solely on mechanical drawing projects, holds little interest for these students. The multidisciplinary approach of this text and its supporting materials are intended to broaden the appeal of the curriculum and increase student interest and, it is hoped, future enrollments.