[T702.Ebook] Ebook Machines and Mechanisms: Applied Kinematic Analysis (3rd Edition), by David H. Myszka

Ebook Machines and Mechanisms: Applied Kinematic Analysis (3rd Edition), by David H. Myszka

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Machines and Mechanisms: Applied Kinematic Analysis (3rd Edition), by David H. Myszka

Ebook Machines and Mechanisms: Applied Kinematic Analysis (3rd Edition), by David H. Myszka

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This up-to-date book answers the overwhelming need for an introduction to kinematic analysis that uses actual machines and mechanisms. It provides the techniques necessary to study the motion of machines while emphasizing the application of kinematic theories to real-world problems, making it a practical reference work. Beginning with a comprehensive introduction to the subject, this book covers computer models of mechanisms; vectors; position and displacement analysis; mechanism design; velocity analysis; acceleration analysis; computer-aided mechanism analysis; cams, gears, belt and train drives; screw mechanisms; and static and dynamic force analyses. For anyone who needs to understand the kinematic theories that are behind the design of mechanisms, including engineers, designers, and machine inventors.

• Sales Rank: #1002775 in Books
• Published on: 2004-07-12
• Format: Unabridged
• Original language: English
• Number of items: 1
• Dimensions: 9.45" h x 1.07" w x 7.77" l, 2.25 pounds
• Binding: Hardcover
• 576 pages

From the Back Cover

Machines and Mechanisms applies graphical and analytical kinematic theories to real-world machines. The book is intended to bridge the gap between a theoretical study of kinematics and the application to practical mechanisms. This objective of providing the techniques necessary to study the motion of machines while emphasizing the application of kinematic theories to real-world machines is consistent with the philosophy of engineering and technology programs.

New to the third edition:

• A new section dealing with kinematic modeling of complicated joints
• Expanded definitions of kinematic properties to more precisely describe each property
• Enhanced tables describing cam-follower motion
• New tables of commercially available gears, sheaves, belts, and sprockets
• Many new problems

Distinctive features of this book include:

• Case studies at the end of every chapter to illustrate mechanisms used on industrial equipment and help students see the practical application of the material they are studying
• A focus on the application of kinematic theories to practical mechanisms throughout the text, further illustrating the real-world application of the material presented
• An introduction to modern tools of the trade through suggestions for implementing the graphical techniques on computer-aided design systems and suggestions for using programmable devices (calculators, spreadsheets, math software, etc.) for analytical solution procedures.

Excerpt. © Reprinted by permission. All rights reserved.
The objective of this book is to provide the techniques necessary to study the motion of machines. A focus is placed on the application of kinematic theories to real-world machinery. It is intended to bridge the gap between a theoretical study of kinematics and the application to practical mechanisms. Students completing a course of study using this book should be able to determine the motion characteristics of a machine. Further, such analysis could be performed on design concepts to optimize the motion of a machine arrangement.

This second edition incorporates much of the feedback received from instructors and students who used the first edition of the book. First, a thorough examination of the accuracy for all equations and Example Problem solutions was performed. Second, solution steps have been added to the Example Problems, highlighting the general solution procedure. Third, the material on mechanism force analysis has been greatly expanded. These and many other modifications were made to more effectively promote the understanding of mechanism analysis.

It is expected that students using this book will have a good background in technical drawing, college algebra, and trigonometry. Also, knowledge of vectors, mechanics, and computer application software, such as spreadsheets, will be useful. However, these concepts are also introduced in the book.

The approach of applying theoretical developments to practical problems is consistent with the philosophy of engineering technology programs. This book is primarily oriented toward mechanical- and manufacturing-related engineering technology programs. It can be used in either associate or baccalaureate degree programs.

Following are some distinctive features of this book: Pictures and sketches of machinery that contain mechanisms are incorporated throughout the text. The focus is on the application of kinematic theories to practical mechanisms. Both graphical techniques and analytical methods are used in the analysis of mechanisms. A student copy of Working Model™ a commercially available dynamic software package, is extensively used in this book. Tutorials and problems that utilize this software are integrated into the book. Suggestions for implementing the graphical techniques on computer-aided design (CAD) systems are included. Every chapter concludes with a few case studies. These cases illustrate a mechanism that is used on industrial equipment and challenges the student to discuss the rationale behind the design and suggest improvements. Both static and dynamic mechanism force analysis methods are introduced. Every major concept is followed by an example problem to illustrate the application of the concept. Every example problem begins with an introduction of a real machine that relies on the mechanism being analyzed. Numerous end-of-chapter problems are consistent with the application approach of the text. Every concept introduced in the chapter has at least one associated practice problem. Most of these problems include the machine that relies on the mechanism being analyzed. Where applicable, end-of-chapter problems are provided that utilize the analytical methods and are best suited for programmable devices (calculators, spreadsheets, math software, etc.) Initially, I developed this textbook after teaching mechanisms for several semesters and noticing that students did not always see the practical applications of the material. To this end, I have grown quite fond of the case study problems and begin each class with one. The students refer to this as the "mechanism of the day." I find this to be an excellent opportunity to focus attention on operating machinery. Additionally, it promotes dialog and creates a learning community in the classroom.

Finally, the purpose of any textbook is to guide the students through a learning experience in an effective manner. I sincerely hope that this book will fulfill this intention. I welcome all suggestions and comments and can be reached at dmyszka@udayton.edu. ACKNOWLEDGEMENTS

I thank the reviewers of this text for their comments and suggestions: Guenter W. Brunner, Owens Community College; Laura Caldwell, University of Cincinnati; and Robert Tosch, Alpena Community College. Dave Myszka

Excerpt. © Reprinted by permission. All rights reserved.

The objective of this book is to provide the techniques necessary to study the motion of machines. A focus is placed on the application of kinematic theories to real-world machinery. It is intended to bridge the gap between a theoretical study of kinematics and the application to practical mechanisms. Students completing a course of study using this book should be able to determine the motion characteristics of a machine. Further, such analysis could be performed on design concepts to optimize the motion of a machine arrangement.

This second edition incorporates much of the feedback received from instructors and students who used the first edition of the book. First, a thorough examination of the accuracy for all equations and Example Problem solutions was performed. Second, solution steps have been added to the Example Problems, highlighting the general solution procedure. Third, the material on mechanism force analysis has been greatly expanded. These and many other modifications were made to more effectively promote the understanding of mechanism analysis.

It is expected that students using this book will have a good background in technical drawing, college algebra, and trigonometry. Also, knowledge of vectors, mechanics, and computer application software, such as spreadsheets, will be useful. However, these concepts are also introduced in the book.

The approach of applying theoretical developments to practical problems is consistent with the philosophy of engineering technology programs. This book is primarily oriented toward mechanical- and manufacturing-related engineering technology programs. It can be used in either associate or baccalaureate degree programs.

Following are some distinctive features of this book:

Pictures and sketches of machinery that contain mechanisms are incorporated throughout the text.

The focus is on the application of kinematic theories to practical mechanisms.

Both graphical techniques and analytical methods are used in the analysis of mechanisms.

A student copy of Working Model™ a commercially available dynamic software package, is extensively used in this book. Tutorials and problems that utilize this software are integrated into the book.

Suggestions for implementing the graphical techniques on computer-aided design (CAD) systems are included.

Every chapter concludes with a few case studies. These cases illustrate a mechanism that is used on industrial equipment and challenges the student to discuss the rationale behind the design and suggest improvements.

Both static and dynamic mechanism force analysis methods are introduced.

Every major concept is followed by an example problem to illustrate the application of the concept.

Every example problem begins with an introduction of a real machine that relies on the mechanism being analyzed.

Numerous end-of-chapter problems are consistent with the application approach of the text. Every concept introduced in the chapter has at least one associated practice problem. Most of these problems include the machine that relies on the mechanism being analyzed.

Where applicable, end-of-chapter problems are provided that utilize the analytical methods and are best suited for programmable devices (calculators, spreadsheets, math software, etc.)

Initially, I developed this textbook after teaching mechanisms for several semesters and noticing that students did not always see the practical applications of the material. To this end, I have grown quite fond of the case study problems and begin each class with one. The students refer to this as the "mechanism of the day." I find this to be an excellent opportunity to focus attention on operating machinery. Additionally, it promotes dialog and creates a learning community in the classroom.

Finally, the purpose of any textbook is to guide the students through a learning experience in an effective manner. I sincerely hope that this book will fulfill this intention. I welcome all suggestions and comments and can be reached at dmyszka@udayton.edu.

ACKNOWLEDGEMENTS

I thank the reviewers of this text for their comments and suggestions: Guenter W. Brunner, Owens Community College; Laura Caldwell, University of Cincinnati; and Robert Tosch, Alpena Community College.

Dave Myszka

Most helpful customer reviews

0 of 0 people found the following review helpful.
Solid textbook
By SteelSlicer
Required text for the course I took, way cheaper than the school bookstore. Sometimes, I thought things weren't explained well, and some of the questions at the end of the chapter used situations that were not addressed in the text. Even the instructor agreed with that. Also, the text deals with the theoretical aspect of some of the items, where our instructor was a retired engineer, and taught to the use of the subject matter in the real world. Overall though, the book was adequate

3 of 3 people found the following review helpful.
Great Machine Design Textbook
By Jill Burgoyne
This book is pretty easy to understand, but it's short on images. I had to read a lot of text to understand the concepts. It is very clear in its descriptions; however. It's fairly easy to navigate around this book. It's created for people who are studying Machine Design. It's a textbook, so nothing like a plot.

3 of 4 people found the following review helpful.
DO NOT BY THIS BOOK!!
By ME
It appears this book was edited very poorly from the third edition to the fourth edition. For example we would be assigned homework problems at the end of each chapter the answers to the odd problems are in the back of the book but most of the answers are from the third edition text there were very few answers in the back of the book that were correct we know because our instructor had both editions of the book. There are numerous typos through out the book incorrect units bad equations the whole chapter on cams is useless none of the cam displacement equations work we had to use another reference when we got to the cam section. About the only thing in this book that was accurate was the graphical portions of each chapter that was it. I do not recommend this book if you need to learn anything about kinematics evaluated analytically.

See all 12 customer reviews...

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