This title is intended for practicing engineers, students of engineering, research-orientated engineers, and anyone involved with engineering programs.
If YOU COULD BUY ONLY ONE DESKTOP REFERENCE—THIS WOULD BE IT ! Here are the tables, formulas, charts, diagrams, figures, key methods and worked-out problems engineers in design, product development, operation, production, analysis, and economic evaluation must have for successful day-to-day problem solving. This dynamic one-volume database provides reliable, ready-to-apply solutions to literally hundreds of engineering problems—formatted for convenient instant access and carefully culled from McGraw-Hill’s most popular and respected handbooks, textbooks, and specialized technical books. McGraw-Hill’s Engineering Companion contains sections on the basics of engineering science and key methods and tools in every branch of engineering: * mechanical engineering * civil engineering * electrical engineering * electronic engineering * metallurgical engineering * architectural and building engineering * bioengineeringeng * and more Covering all major engineering fields and extensively updated for maximum usability, this is the perfect working tool for today’s new breed of engineer.
The Classic Edition of Shigley & Mischke, Mechanical Engineering Design 5/e provides readers the opportunity to use this well-respected version of the bestselling textbook in Machine Design. Originally published in 1989, MED 5/e provides a balanced overview of machine element design, and the background methods and mechanics principles needed to do proper analysis and design. Content-wise the book remains unchanged from the latest reprint of the original 5th edition. Instructors teaching a course and needing problem solutions can contact McGraw-Hill Account Management for a copy of the Instructor Solutions Manual.
McGraw-Hill Workforce's Career Companion series provides up to date career information and contextualized skill practice to help learners explore and prepare for careers. Science, Technology, Engineering, and Mathematics introduces readers to this career cluster by exploring career pathways and jobs within these fields, education and training requirements, work environments, and current industry trends. Preparation for career readiness and success is provided through applied workplace skills practice using real-world scenarios set in the science, technology, engineering, and mathematics industries. Features: Brief descriptions of current high-growth jobs, with projections of changes in the industry over time Industry-specific education and training resources to prepare for careers Tips and techniques for finding employment within the industry Identification of the key academic skills needed to be successful within the industry Opportunities to practice and apply key career readiness skills in reading, mathematics, and locating information, contextualized to industry-specific careers
Through the material, readers are given the ability to analyze systematically a potential area of need - such as a function in a department - to determine whether a computer application might help to assess the costs and benefits of alternative proposals and to proceed from that analysis to a clear specification for what the proposed solution should accomplish. There is also coverage of how computer professionals evaluate hardware and design the software and systems that will implement a given application. Furthermore, readers will learn how to manage the people, resources, time, and money required in the development process for creating a given application program or for adapting a package application to the needs specified in the design.
This book focuses on systematic software design approach in C for applications in engineering and science following the latest standard developed by the ANSI C/ISO C Standard Committees called C99.
An Engineering Companion to Mechanics of Materials is the first volume in the Momentum Press collection The Modern Engineering Companions: A Systems Approach to the Study of Engineering. In Mechanics of Materials, we apply the intuitive “systems approach” to learning, the advantages of which are several. The student first gets a broad overview of the entire subject rather than the narrow piecemeal vision afforded by the traditional “component approach” common to most engineering texts. Mechanics of Materials comes with additional features to improve student learning, including Common Confusing Concepts (C3) noted and clarii ed, indication of key concepts, side bar discussions, worked examples, and exercises for developing engineering intuition. The Companions are intended as a supplementary resource to help both undergraduate, graduate, and post-graduate students better learn and understand engineering concepts.
Focusing on optimal design, this book covers such topics as fracture, mechanics, bolted joints, composite materials, weld components and fatigue testing. Computer techniques are featured throughout the book and there is a whole chapter on CAD/CAM.
The field of engineering is becoming increasingly interdisciplinary, and there is an ever-growing need for engineers to investigate engineering and scientific resources outside their own area of expertise. However, studies have shown that quality information-finding skills often tend to be lacking in the engineering profession. Using the Engineerin