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The text is designed for students and teachers in high schools, community colleges, technical institutes, and first-year university level. The text is intended to provide a wide range of topics in the fundamentals of graphics. Full attention is given to modern treatment, up-to-date standards, and ease of organization. The material is organized so as to include more emphasis on newer aspects of the field, such as computer aided drafting (CAD) and a smoother integration of metric units.
Developing Strengths-Based Project Teams integrates common project management and strengths-based talent development language to help you and your project team learn about and become a strengths-based project team. Everyone has talents and strengths. Everyone does projects. This book is designed for project managers, team members, and stakeholders who have an interest in talent development—not only their own talents and strengths, but also the combined talents and strengths of their project teams. Learn about the characteristics of a strengths-based project team. Apply a series of building blocks for individual and team strengths-based development. Through exercises, templates, action plans, and reflective questions, learn how to cultivate the collective strengths of project team members to become a strengths-based project team. Explore the various project management roles for sustaining a strengths-based project team culture. Create an environment in which team members can use their talent development tools long-term to develop and apply what they naturally do best—resulting in higher project team performance.
The role of representation in the production of technoscientific knowledge has become a subject of great interest in recent years. In this book, sociologist and art critic Kathryn Henderson offers a new perspective on this topic by exploring the impact of computer graphic systems on the visual culture of engineering design. Henderson shows how designers use drawings both to organize work and knowledge and to recruit and organize resources, political support, and power. Henderson's analysis of the collective nature of knowledge in technical design work is based on her participant observation of practices in two industrial settings. In one she follows the evolution of a turbine engine package from design to production, and in the other she examines the development of an innovative surgical tool. In both cases she describes the messy realities of design practice, including the mixed use of the worlds of paper and computer graphics. One of the goals of the book is to lay a practice-informed groundwork for the creation of more usable computer tools. Henderson also explores the relationship between the historical development of engineering as a profession and the standardization of engineering knowledge, and then addresses the question: Just what is high technology, and how does its affect the extent to which people will allow their working habits to be disrupted and restructured? Finally, to help explain why visual representations are so powerful, Henderson develops the concept of "metaindexicality"—the ability of a visual representation, used interactively, to combine many diverse levels of knowledge and thus to serve as a meeting ground (and sometimes battleground) for many types of workers.
Designed as a text for the undergraduate students of all branches of engineering, this compendium gives an opportunity to learn and apply the popular drafting software AutoCAD in designing projects. The textbook is organized in three comprehensive parts. Part I (AutoCAD) deals with the basic commands of AutoCAD, a popular drafting software used by engineers and architects. Part II (Projection Techniques) contains various projection techniques used in engineering for technical drawings. These techniques have been explained with a number of line diagrams to make them simple to the students. Part III (Descriptive Geometry), mainly deals with 3-D objects that require imagination. The accompanying CD contains the animations using creative multimedia and PowerPoint presentations for all chapters. In a nutshell, this textbook will help students maintain their cutting edge in the professional job market. KEY FEATURES : Explains fundamentals of imagination skill in generic and basic forms to crystallize concepts. Includes chapters on aspects of technical drawing and AutoCAD as a tool. Treats problems in the third angle as well as first angle methods of projection in line with the revised code of Indian Standard Code of Practice for General Drawing.
The processes of manufacture and assembly are based on the communication of engineering information via drawing. These drawings follow rules laid down in national and international standards. The organisation responsible for the international rules is the International Standards Organisation (ISO). There are hundreds of ISO standards on engineering drawing because drawing is very complicated and accurate transfer of information must be guaranteed. The information contained in an engineering drawing is a legal specification, which contractor and sub-contractor agree to in a binding contract. The ISO standards are designed to be independent of any one language and thus much symbology is used to overcome any reliance on any language. Companies can only operate efficiently if they can guarantee the correct transmission of engineering design information for manufacturing and assembly.This book is a short introduction to the subject of engineering drawing for manufacture. It should be noted that standards are updated on a 5-year rolling programme and therefore students of engineering drawing need to be aware of the latest standards. This book is unique in that it introduces the subject of engineering drawing in the context of standards.
This book provides the reader with a comprehensive knowledge of all the tools provided in the software SOLIDWORKS for a variety of engineering areas. It presents a broad choice of examples to be imitated in one’s own work. In developing these examples, the authors’ intent has been to exercise many program features and refinements. By displaying these, the authors hope to give readers the confidence to employ these program enhancements in their own modeling applications.
This work has been selected by scholars as being culturally important and is part of the knowledge base of civilization as we know it. This work is in the public domain in the United States of America, and possibly other nations. Within the United States, you may freely copy and distribute this work, as no entity (individual or corporate) has a copyright on the body of the work. Scholars believe, and we concur, that this work is important enough to be preserved, reproduced, and made generally available to the public. To ensure a quality reading experience, this work has been proofread and republished using a format that seamlessly blends the original graphical elements with text in an easy-to-read typeface. We appreciate your support of the preservation process, and thank you for being an important part of keeping this knowledge alive and relevant.