Vector Mechanics for Engineers: Statics - Ferdinand Beer,E. Russell Johnston, Jr.,Elliot Eisenberg,David Mazurek

About the book

For the past fifty years Beer and Johnston have been the uncontested leaders in the teaching of undergraduate engineering mechanics. Over the years their textbooks have introduced significant theoretical and pedagogical innovations in statics, dynamics, and mechanics of materials education. At the same time, their careful presentation of content, unmatched levels of accuracy, and attention to detail have made their texts the standard for excellence.

The new Eighth Edition of Vector Mechanics for Engineers: Statics marks the fiftieth anniversary of the Beer/Johnston series. Continuing in the spirit of its successful previous editions, the Eighth Edition provides conceptually accurate and thorough coverage together with a significant addition of new problems, including biomechanics problems, and the most extensive media resources available.

Key features

The 8th editions offer over 50% new and revised homework problem set, with biomechanics-focused problems added appropriately throughout the texts.

The photo program continues to be expanded in each edition, with new chapter opener and in chapter photos added to each chapter

A C.O.S.M.O.S. Solutions Manual, provided to instructors on DVD, allows for assignment generation, tracking, and distribution. Instructors also have the ability to edit homework problems.

McGraw Hill's Asessment, Review, and Instruction System (ARIS) is a complete, online tutorial, electronic homework, and course management system, designed for greater ease of use than any other system available.

Also available on ARIS, student and instructor resources include algorithmic problems, S.M.A.R.T. tutorials, lecture powerpoints, and images from the text, among other resources.

McGraw-Hill's web-based Hands-on Mechanics teaching demonstration library provides instructors with instructions for building hands-on physical models used to demonstrate important Statics and Dynamics concepts in class.

A careful, step-by-step presentation is followed in each lesson of each chapter and every chapter is organized as follows: an opening photograph to help students visualize key concepts is followed by a chapter introduction with a chapter outline previewing what will be covered in each lesson. After each lesson there are 1-4 Sample Problems (set up to serve as a model for student solutions) followed by a Solving Problems On Your Own section giving solution guidelines before the lesson problems set. At the end of each chapter students find a Review and Summary section with notes for review and examples and cross references to key sections. Finally, a Review Problem section ties together several concepts from that chapter and a Computer Problems section also many problems relevant to the design process and encouraging open-ended solutions.

A signature Beer and Johnston text feature, Sample Problems allow students to see important key problem types with their solution laid out on a single page, and organized to provide a model for student problem solving. Sample Problems serve the dual purpose of amplifying the text and demonstrating the type of neat and orderly work that students should cultivate in their own solutions.

Liberal use of free-body diagrams (graphical representation of objects where arrows indicate forces acting on object) in Statics and effective-forces diagrams in Dynamics. By placing the emphasis on "free-body-diagram equations" rather than on the standard algebraic equations of motion, a more intuitive and more complete understanding of fundamental principles is achieved.

Review and Summary sections at the end of each chapter provide students with a valuable study tool. Reviewers found these chapter reviews to be one of the strongest features of the text and the best available in the market.

Computer Problems, relevant to the design process, are offered at the end of each chapter. While the problems will be generic, they will be designed to be easily solved using popular computational programs such as Matlab, Mathcad, Maple, etc. The computer problems focus on symbolic manipulation and plotting, as opposed to the more programming-based computer problems in the current editions.

Effective use of 4-color helps students distinguish between different vectors: red=accelerations and forces (applied and effective) green=velocities, blue=displacements.