e-Book Mechanics of Materials download

e-Book Mechanics of Materials download

by Ferdinand Pierre Beer

ISBN: 0071284222
ISBN13: 978-0071284226
Language: English
Publisher: McGraw-Hill Higher Education; 5th Revised edition edition (September 1, 2010)
Pages: 816
Category: Physics
Subategory: Math Science

ePub size: 1606 kb
Fb2 size: 1902 kb
DJVU size: 1725 kb
Rating: 4.1
Votes: 196
Other Formats: txt doc mobi lrf

This book made the fundamentals of strengths of materials pretty easy to grasp. The diagrams were good, useful equations and derivations are boxed and highlighted.

Lost all my college texts years ago in a fire and this is one of the texts I read for knowledge enhancement. This book made the fundamentals of strengths of materials pretty easy to grasp. I would recommend this book to anyone.

This book made the fundamentals of strengths of materials pretty easy to grasp

Lost all my college texts years ago in a fire and this is one of the texts I read for knowledge enhancement.

Manual solution Mechanics of Materials Beer, Johnston ch 2 (2014 ).

Mechanics Of Materials Solutions. Manual solution Mechanics of Materials Beer, Johnston ch 2 (2014 ). 7. September 2018.

Mechanics of materials. by. Beer, Ferdinand Pierre; DeWolf, John T; Johnston, Elwood Russell. Books for People with Print Disabilities. Internet Archive Books.

Mechanics of Materials book. Ferdinand Pierre Beer (1915–2003) was a French mechanical engineer and university professor. He spent most of his career as a member of the faculty at Lehigh University, where he served as the chairman of the mechanics and mechanical engineering departments. His most significant contribution was the co-authorship of several textbooks in the field of mechanics, which have been widely cited and Ferdinand Pierre Beer (1915–2003) was a French mechanical engineer and university professor.

This text is designed for the first course in mechanics of materials-or strength of materials-offered to engineering students in the sophomore or junior year (Mechanics of Materials). The authors hope that it will help instructors achieve this goal in that particular course in the same way that their other texts may have helped them in statics and dynamics.

This is really a great book in a hard to grasp subject. It is easy to follow,has a lot of excellent sample problems and examples,sudent-friendly and it is ideal for selfstudy.

Beer and Johnston & Mechanics of Materials is the uncontested leader for the teaching of solid mechanics. This is really a great book in a hard to grasp subject. One of the Best Books in Mechanics of Materials. com User, June 8, 2003. This books is the only rival of the Hibbeler's book. It handles the concepts clearly and in detail.

Engineering Mechanics 2 Mechanics of Materials By Dietmar Gross, Werner Hauger, Jorg Schroder, Wolfgang A. Wall and Javier Bonet. Essentials of the Mechanics of Materials by George N. Frantziskonis. Home Builders Guide to Continuous Improvement Schedule, Quality, Customer Satisfaction, Cost and Safety by Jack B. Revelle and Derek N. Margetts. Pipeline Integrity Assurance a Practical Approach by Mo Mohitpour, Alan Murray, Michael McManus and Iain Colquhoun.

Beer, Ferdinand Pierre, 1915– TA405. B39 2012 62. ’12-dc22 2010037852 ww. hhe. com bee80288 fm i-xx 1. indd Page v 11/19/10 7:20:17 PM user-f499 ktop/Temp Work/Don't Delete Job/MHDQ251:Beer:201/fm About the Authors As publishers of the books written. indd Page xvi 11/29/10 6:42:12 PM user-f499 ktop/Temp Work/Don't Delete Job/MHDQ251:Beer:201 xvi Preface SUPPLEMENTAL.

Overview of this text: it is designed for the first course in mechanics of materials - or strength of materials - offered to engineering students in the sophomore or junior year. The main objective is to help develop in the engineering student the ability to analyse a given problem in a simple and logical manner and to apply to its solution a few fundamental and well-understood principles. In this text, the study of the mechanics of materials is based on the understanding of a few basic concepts and on the use of simplified models. This approach makes it possible to develop all the necessary formulas in a rational and logical manner and to clearly indicate the conditions under which they can be safely applied to the analysis and design of actual engineering structures and machine components. Features of this title include new and revised problems as well as Hands-On Mechanics which helps the professor build in-class experiments that demonstrate complicated topics in the text. The experiments and instructions are posted on associate website. McGraw-Hill's ARIS (Assessment, Review and Instruction System) is a complete, online tutorial, electronic homework and course management system, designed for greater ease of use than any other system available. For students, ARIS contains self-study tools such as animation and interactive quizzes, and it enables students to complete and submit their homework online. For instructors, ARIS provides teaching resources online, and allows them to create or edit problems from the question bank, import their own contents, and grade and report easy-to-assign homework, quizzes and tests. ARIS is free for instructors, while students can purchase access from the bookstore or the ARIS website.
I'm a mech major. Not the best student in the class but I do alright. This book was definitely one of the easiest mech books to understand that I've come across in two years in college. The material over all was pretty basic and most of it was common sense to me though. It may also depend on how well your instructors can teach. Even if you don't have a good instruction the book uses simple enough terminology that you can understand the material with even the shakiest of engineering knowledge.

I read many chapters for a materials class. Being a math person, I think the author's did a great job presenting the mathematics of the theory
for ideas they were presenting. Just needed to be more solutions to problems. The Mohr's circle stuff was tough to understand because of the way it was presented. Our professor gave us homework assignments that examined stuff in Mohr's circle that showed us our misunderstandings about what happens when due to the alignment of the circle on the Y axis.

i really liked this book but not the teacher. the first few chapters of this book will be the hardest as there is a lot of variable that will need to be known. the book will start to focus on one aspect of MOM after the 4 or 5 chapters. the class may seem hard at first but will get a lot easier to understand towards the end. also if you do not understand the material by the end of the course i would recommend dropping out of civil or mech engineering as the stuff covered in this class will follow you for the rest of your engineering career. it will be covered in some way or another in most of the upper level undergrad courses especially Mohr's circle.

I ordered Mechanics of Materials [Hardcover] by Ferdinand Beer, Jr., E. Russell Johnston, John DeWolf, David Mazurek to revisit my training. Lost all my college texts years ago in a fire and this is one of the texts I read for knowledge enhancement. I like the approach and delivery of information in this format and I felt buying a used book is worth the price to have a good book available to study as needed. I really like it. Good condition when received, no marking or signs of abuse. Good purchase.

Flawless condition. Brings back a lot of long nights and problem solving before Machine Design--my personal favorite along with Kinematics in Mechanical Engineering undergrad days.

I would recommend this seller every time.

I've had to use this guy's books in three different classes, statics, dynamics, and well strengths of materials. Statics and Dynamics, those books well to put it bluntly.... were the biggest wastes of money and piece of s*** books I have in my arsenal, I literally could only learn from the instructor because it used trig to approach every problem as opposed to applying moments or cross products, just terrible... but maybe beer isn't that bad, he had a coauthor and he just let the other guy write it... atleast that's what I'd like to believe because the style is this book is much different. I was actually dreading this book when I saw who wrote it.


I have actually read this book almost to completion, done countless hours of extra problems, and I think its a pretty damn good book. For those who moaned about how the explanations are long and tedious... welcome to engineering, you need to be tedious to be good at it, those who gave it 1 star for the complexity obviously are probably in business school. While the explanations seem convoluted in the beginning, there is a method to the madness. When you try to solve the problem first you probably just reference lecture notes first and then look back at the book for the equation, "plug and chug" well they sure as hell don't make any sense if you don't understand the purpose of the nomenclature. If you read each chapter in the sections where the equations are listed then follow an example problem, repeating this method... you can easily solve 70- 80 percent of the problems alone, you still need a prof to help; the reason being is this isn't just a class that relies on physics, but its more of logic based than math intensive subject.

The double whammy here is if you got a C in statics, if you read this book and googled how to do cross products, you could get an A if you retook the class.

Also a note.... this is a book for you to keep for a lifetime.... something you could ( I kid of course) pass on to your kids...so get the hardcover, its a classic, and its presented in a manner that if you sit down, read, and put in effort, it doesn't matter how gripping the subject is, if you appreciate the field then you will pass your class. I still reference this book for quick review or eqns even though my Shingley's Mech Design book makes it obsolete as a reference book, this thing is slim as hell compared to that encyclopedia.


Great engineering book that does a decent job explaining the material. It probably helps that my professor was good too, but the book made a fair contribution.

fine book

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