This book is designed as a software-based lab book to complement a standard textbook in an engineering dynamics course, which is usually taught at the undergraduate level. This book can also be used as an auxiliary workbook in a CAE or Finite Element Analysis course for undergraduate students. Each book comes with a disc containing video demonstrations, a quick introduction to SolidWorks eBook, and all the part files used in the book.
This textbook has been carefully developed with the understanding that CAE software has developed to a point that it can be used as a tool to aid students in learning engineering ideas, concepts and even formulas. These concepts are demonstrated in each section of this book. Using the graphics-based tools of SolidWorks Simulation can help reduce the dependency on mathematics to teach these concepts substantially. The contents of this book have been written to match the contents of most mechanics of materials textbooks.
There are 11 chapters in this book. Each chapter contains two sections. Each section is designed for a student to follow the exact steps in that section and learn a concept or topic of Engineering Dynamics. Typically, each section takes 20-40 minutes to complete the exercises.
Each copy of this book comes with a disc containing videos that demonstrate the steps used in each section of the book, a 121 page introduction to Part and Assembly Modeling with SolidWorks in PDF format, and all the files readers may need if they have any trouble. The concise introduction to SolidWorks PDF is designed for those students who have no experience with SolidWorks and want to feel more comfortable working on the exercises in this book. All of the same content is available for download on the book’s companion website.
本書特色
1. A software-based lab book to complement a standard engineering dynamics textbook.
2. Chapters mapped to standard textbooks.
3. Facilitates learning of theories, concepts, and formulas.
4. Easy to understand; step-by-step instructions.
5. Comes with an 121-page PDF e-book, a concise introduction of 3D modeling using SolidWorks 2014.
6. Provides a companion DVD and a companion webpage containing resources including videos of each exercise in the book.
| FindBook |
有 6 項符合
Engineering Dynamics Labs with SolidWorks Motion 2014 (W/DVD)的圖書 |
 |
Engineering Dynamics Labs with SolidWorks Motion 2014 (W/DVD) 作者:李輝煌 出版社:全華圖書股份有限公司 出版日期:2014-02-06 語言:繁體書 |
| 圖書選購 |
| 型式 | 價格 | 供應商 | 所屬目錄 | $ 570 |
 TAAZE 讀冊生活 |
中文書 |
$ 570 |
 博客來 |
機械工程 |
$ 570 |
 三民網路書店 |
科學‧科普 |
$ 570 |
 五南文化廣場網路書店 |
社會人文 |
$ 570 |
 iRead灰熊愛讀書 |
高等教育 |
$ 600 |
 金石堂 |
資訊學群 |
|---|
| 圖書館借閱 |
| 國家圖書館 | 全國圖書書目資訊網 | 國立公共資訊圖書館 | 電子書服務平台 | MetaCat 跨館整合查詢 |
| 臺北市立圖書館 | 新北市立圖書館 | 基隆市公共圖書館 | 桃園市立圖書館 | 新竹縣公共圖書館 |
| 苗栗縣立圖書館 | 臺中市立圖書館 | 彰化縣公共圖書館 | 南投縣文化局 | 雲林縣公共圖書館 |
| 嘉義縣圖書館 | 臺南市立圖書館 | 高雄市立圖書館 | 屏東縣公共圖書館 | 宜蘭縣公共圖書館 |
| 花蓮縣文化局 | 臺東縣文化處 |
|
|
圖書介紹 - 資料來源:博客來 評分:
圖書名稱:Engineering Dynamics Labs with SolidWorks Motion 2014 (W/DVD)
內容簡介
作者介紹
作者簡介
Professor Lee graduated from the Department of Civil Engineering, National Cheng Kung University, Tainan, Taiwan in 1977 and was subsequently qualified as a Professional Engineer. With his P.E. license, he became a structural engineering practitioner as well as a software developer in Taipei. During that period, he and his partners designed many high-rise buildings and developed several finite element analysis programs, which were then commercialized. He received his M.S. in 1984 and Ph.D. in 1989, both from University of Iowa, USA. After that, he started to work as a Research Scientist in an Industry-University Cooperated Research Center of the University of Iowa. One of his functions was to integrate commercially available FEM programs with the programs developed by the Center, creating new engineering capabilities to support the industrial members of the Center. Today, Professor Lee is teaching in National Cheng Kung University, one of the most prestigious universities in Taiwan. He has authored three English books: "Finite Element Simulations with ANSYS Workbench" (2010, 2011, 2012,2013, 2014), "Mechanics of Materials Labs with SolidWorks Simulation" (2013, 2014) and "Engineering Dynamics Labs with SolidWorks Motion" (2013, 2014); and two Chinese books: "Engineering Analysis with ANSYS: Fundamentals and Concepts" (2005) and "Taguchi Methods: Principles and Practices of Quality Design" (2000, 2008, 2011). He runs 6 km every morning and takes care his gardens during weekends.
Professor Lee graduated from the Department of Civil Engineering, National Cheng Kung University, Tainan, Taiwan in 1977 and was subsequently qualified as a Professional Engineer. With his P.E. license, he became a structural engineering practitioner as well as a software developer in Taipei. During that period, he and his partners designed many high-rise buildings and developed several finite element analysis programs, which were then commercialized. He received his M.S. in 1984 and Ph.D. in 1989, both from University of Iowa, USA. After that, he started to work as a Research Scientist in an Industry-University Cooperated Research Center of the University of Iowa. One of his functions was to integrate commercially available FEM programs with the programs developed by the Center, creating new engineering capabilities to support the industrial members of the Center. Today, Professor Lee is teaching in National Cheng Kung University, one of the most prestigious universities in Taiwan. He has authored three English books: "Finite Element Simulations with ANSYS Workbench" (2010, 2011, 2012,2013, 2014), "Mechanics of Materials Labs with SolidWorks Simulation" (2013, 2014) and "Engineering Dynamics Labs with SolidWorks Motion" (2013, 2014); and two Chinese books: "Engineering Analysis with ANSYS: Fundamentals and Concepts" (2005) and "Taguchi Methods: Principles and Practices of Quality Design" (2000, 2008, 2011). He runs 6 km every morning and takes care his gardens during weekends.
目錄
1. Particle Kinematics
2. Particle Dynamics: Force and Acceleration
3. Particle Dynamics: Work and Energy
4. Particle Dynamics: Impulse and Momentum
5. Planar Rigid Body Kinematics
6. Planar Rigid Body Dynamics: Force and Acceleration
7. Planar Rigid Body Dynamics: Work and Energy
8. Planar Rigid Body Dynamics: Impulse and Momentum
9. 3D Rigid Body Kinematics
10. 3D Rigid Body
11. Vibrations
2. Particle Dynamics: Force and Acceleration
3. Particle Dynamics: Work and Energy
4. Particle Dynamics: Impulse and Momentum
5. Planar Rigid Body Kinematics
6. Planar Rigid Body Dynamics: Force and Acceleration
7. Planar Rigid Body Dynamics: Work and Energy
8. Planar Rigid Body Dynamics: Impulse and Momentum
9. 3D Rigid Body Kinematics
10. 3D Rigid Body
11. Vibrations
|
