Engineering Mechanics: Dynamics
暫譯: 工程力學:動力學

Boresi

Engineering Mechanics: Dynamics
  • 出版日期: 2001-01-01
  • 售價: $980
  • 貴賓價: 9.8$960
  • 語言: 英文
  • 頁數: 715
  • 裝訂: 精裝
  • ISBN: 0534951627
  • ISBN-13: 9780534951627
  • 相關分類: 動力學 Dynamics

    • 下單後立即進貨 (約5~7天)

相關主題

商品描述

Arthur Boresi and Richard Schmidt's innovative textbook (and its partner text, ENGINEERING MECHANICS: STATICS) presents mechanics in the most exciting and relevant context possible, with painstaking clarity and accuracy throughout. The authors strive to present the topics thoroughly and directly, with fundamental principles emerging through application to real-world problems. The emphasis is on concepts, derivations, and interpretations of the general principles, and they explain the material with rigor and precision. They present the technical principles of mechanics within the framework of a structured learning methodology, enabling students to better understand and retain the material. The integrated use of learning aids throughout the book is based on the authors' experience that students can be taught effective study habits while they learn mechanics.

  • The authors' pedagogical structure develops student understanding of the concepts before asking them to solve problems.
  • Problem-solving techniques boxes help students develop essential skills.
  • Each chapter begins with A Look Forward, which provides a general, non-technical perspective of the material.
  • Students get started with SQ3R reading and study method with the book's Survey Questions.
  • Performance-related statements at the beginning of the chapter, called Learning Objectives, help students grasp the concepts.
  • Checkpoints are reminders that highlight key points.
  • Chapter review is provided through Chapter Highlights.
  • At the end of each chapter, homework problems preserve the continuity of students' reading.
  • Verbal and written understanding of mechanics concepts and computational solutions is emphasized in the book's Review Questions.
  • Specific Problems, which can be solved by a computational program are presented in selected instances to encourage student use of computers.
  • Design problems introduce students to the possibility of alternative solutions in the design process.

商品描述(中文翻譯)

亞瑟·博瑞西(Arthur Boresi)和理查德·施密特(Richard Schmidt)創新的教科書(及其伴隨的文本《工程力學:靜力學》)以最令人興奮和相關的背景呈現力學,並在整個過程中保持清晰和準確。作者努力徹底且直接地呈現主題,通過應用於現實世界問題來揭示基本原則。重點放在概念、推導和一般原則的詮釋上,並以嚴謹和精確的方式解釋材料。他們在結構化的學習方法框架內呈現力學的技術原則,使學生能夠更好地理解和記住材料。全書整合使用的學習輔助工具基於作者的經驗,認為學生在學習力學的同時可以培養有效的學習習慣。

- 作者的教學結構在要求學生解決問題之前,先發展他們對概念的理解。
- 問題解決技巧框幫助學生發展基本技能。
- 每章以《展望》開始,提供材料的一般性、非技術性視角。
- 學生透過書中的調查問題開始使用SQ3R閱讀和學習方法。
- 每章開頭的表現相關陳述,稱為學習目標,幫助學生掌握概念。
- 檢查點是提醒,突顯關鍵要點。
- 章節回顧通過《章節重點》提供。
- 每章結尾的作業問題保持學生閱讀的連貫性。
- 書中的回顧問題強調對力學概念和計算解決方案的口頭和書面理解。
- 在特定情況下,提出可由計算程序解決的具體問題,以鼓勵學生使用電腦。
- 設計問題讓學生接觸設計過程中替代解決方案的可能性。

作者簡介

Arthur P. Boresi - University of Wyoming, Laramie

Richard J. Schmidt - University of Wyoming, Laramie

作者簡介(中文翻譯)

亞瑟·P·博瑞西 - 懷俄明大學,拉勒米

理查德·J·施密特 - 懷俄明大學,拉勒米

目錄大綱

TO THE INSTRUCTOR / TO THE STUDENT
13. INTRODUCTION TO DYNAMICS, KINEMATICS OF PARTICLES
Introduction to Dynamics / Motion of a Particle on an Axis / Motion of a Particle in Three Dimensions / Rotation of a Line in a Plane, Angular Velocity, and Angular Acceleration / Simple Harmonic Motion / Curvature of a Plane Curve / Tangential and Normal Components of Acceleration, Plane Motion / Differentiation of Vectors / Vector Interpretation of Tangential and Centripetal Acceleration / Polar Coordinates / Kinematic Frames of Reference / Problems
14. KINEMATICS OF PARTICLES
Newton's Law of Universal Gravitation / Newton's Laws of Motion / Newtonian Reference Frames / Applications of Newton's Second Law / Motion of a Particle under the Action of Gravity / The Inertial Force: Particle Motion in an Accelerated Frame / Centrally Directed Force: Planetary Motion / Problems
15. WORK AND ENERGY PRINCIPLES FOR PARTICLES
Introduction / Work-Force Relationships / Power-Force Relationship / Conservative and Nonconservative Systems / Potential Energy of External and Internal Forces / The General Concept of Energy / Problems
16. MOMENTUM PRINCIPLES FOR PARTICLES
Introduction / Laws of Momentum and Conservation of Momentum / Center of Mass of a System of Particles / Collisions, or Impacts / Inelastic Collisions / Law of Moment of Momentum; Conservation of Moment of Momentum / Moment of Momentum with Respect to a Moving Reference Frame / Variable-Mass Systems / The Principle of Momentum in Fluid Mechanics / Chapter Summary / Problems
17. KINEMATICS OF RIGID BODIES
Part I: Plane Kinematics of Rigid Bodies / Types of Plane Displacements / Plane Motion of a Rigid Body / Velocity of a Rigid Body Slice That Executes Plane Motion / The Instantaneous Center of Velocity / Accelerations in a Rigid Body Slice That Executes Plane Motion / Part II: Three-Dimensional Kinematics of Rigid Bodies / Vector Character of Angular Velocity / Rotational Couples / General Motion of a Rigid Body / Velocities and Accelerations in a Rigid Body / Relative Motion and Rotating Reference Frames / Problems
18. PLANE KINETICS OF RIGID BODIES
Translation of a Rigid Body / Inertial-Force Method for Translation of a Rigid Body / Mass Moment of Inertia of a Body with Respect to an Axis / Rotation of a Rigid Body about a Fixed Axis / The Pendulum, a Body That Rotates about a Fixed Axis / Plane Motion of a Rigid Body / Use of the Inertial-Force Method and Inertial Couples to Analyze / Centrifugal Force and a Body That Rotates about a Fixed Axis / Problems
19. ENERGY AND MOMENTUM PRINCIPLES AND PLANE MOTION OF RIGID BODIES
Plane Motion of a Rigid Body and Work Performed by a Couple / Work Performed on a Mechanical System / The Law of Kinetic Energy for Plane Motion of a Rigid Body / The Law of Kinetic Energy for Conservative Systems of Rigid Bodies / Separation of the Work of Conservative and Nonconservative Forces / Shaft Power / The Law of Linear Momentum for Motion of a Rigid Body / The Law of Angular Momentum for Plane Motion of a Rigid Body / Problems
20. VIBRATIONS OF A SINGLE-DEGREE-OF-FREEDOM SYSTEM
Introduction / The Differential Equation of Motion / Undamped Free Vibrations / Free Vibrations with Viscous Damping / Forced Vibrations / Energy Method / Problems
21. THREE-DIMENSIONAL KINETICS OF RIGID BODIES
General Theory of Moments of Inertia / Parallel-Axis Theorem / Ellipsoid of Inertia / Kinetic Energy of a Rigid Body / Angular Momentum of a Rigid Body / Three-Dimensional Equation of Motion for a Rigid Body / The Euler Equations of Motion / Rotation of a Rigid Body about a Fixed Axis / Gyroscopes / Problems / APPENDIX A: ALGEBRAIC EQUATIONS AND DETERMINANTS / APPENDIX B: GEOMETRIC, TRIGONOMETRIC, AND HYPERBOLIC RELATIONS / APPENDIX C: AREA MOMENTS OF INERTIA / APPENDIX D: PROPERTIES OF LINES, AREAS, AND VOLUMES / APPENDIX E: NUMERICAL INTEGRATION / APPENDIX F: MASS MOMENTS OF INERTIA / REFERENCES

目錄大綱(中文翻譯)

TO THE INSTRUCTOR / TO THE STUDENT

13. INTRODUCTION TO DYNAMICS, KINEMATICS OF PARTICLES

Introduction to Dynamics / Motion of a Particle on an Axis / Motion of a Particle in Three Dimensions / Rotation of a Line in a Plane, Angular Velocity, and Angular Acceleration / Simple Harmonic Motion / Curvature of a Plane Curve / Tangential and Normal Components of Acceleration, Plane Motion / Differentiation of Vectors / Vector Interpretation of Tangential and Centripetal Acceleration / Polar Coordinates / Kinematic Frames of Reference / Problems

14. KINEMATICS OF PARTICLES

Newton's Law of Universal Gravitation / Newton's Laws of Motion / Newtonian Reference Frames / Applications of Newton's Second Law / Motion of a Particle under the Action of Gravity / The Inertial Force: Particle Motion in an Accelerated Frame / Centrally Directed Force: Planetary Motion / Problems

15. WORK AND ENERGY PRINCIPLES FOR PARTICLES

Introduction / Work-Force Relationships / Power-Force Relationship / Conservative and Nonconservative Systems / Potential Energy of External and Internal Forces / The General Concept of Energy / Problems

16. MOMENTUM PRINCIPLES FOR PARTICLES

Introduction / Laws of Momentum and Conservation of Momentum / Center of Mass of a System of Particles / Collisions, or Impacts / Inelastic Collisions / Law of Moment of Momentum; Conservation of Moment of Momentum / Moment of Momentum with Respect to a Moving Reference Frame / Variable-Mass Systems / The Principle of Momentum in Fluid Mechanics / Chapter Summary / Problems

17. KINEMATICS OF RIGID BODIES

Part I: Plane Kinematics of Rigid Bodies / Types of Plane Displacements / Plane Motion of a Rigid Body / Velocity of a Rigid Body Slice That Executes Plane Motion / The Instantaneous Center of Velocity / Accelerations in a Rigid Body Slice That Executes Plane Motion / Part II: Three-Dimensional Kinematics of Rigid Bodies / Vector Character of Angular Velocity / Rotational Couples / General Motion of a Rigid Body / Velocities and Accelerations in a Rigid Body / Relative Motion and Rotating Reference Frames / Problems

18. PLANE KINETICS OF RIGID BODIES

Translation of a Rigid Body / Inertial-Force Method for Translation of a Rigid Body / Mass Moment of Inertia of a Body with Respect to an Axis / Rotation of a Rigid Body about a Fixed Axis / The Pendulum, a Body That Rotates about a Fixed Axis / Plane Motion of a Rigid Body / Use of the Inertial-Force Method and Inertial Couples to Analyze / Centrifugal Force and a Body That Rotates about a Fixed Axis / Problems

19. ENERGY AND MOMENTUM PRINCIPLES AND PLANE MOTION OF RIGID BODIES

Plane Motion of a Rigid Body and Work Performed by a Couple / Work Performed on a Mechanical System / The Law of Kinetic Energy for Plane Motion of a Rigid Body / The Law of Kinetic Energy for Conservative Systems of Rigid Bodies / Separation of the Work of Conservative and Nonconservative Forces / Shaft Power / The Law of Linear Momentum for Motion of a Rigid Body / The Law of Angular Momentum for Plane Motion of a Rigid Body / Problems

20. VIBRATIONS OF A SINGLE-DEGREE-OF-FREEDOM SYSTEM

Introduction / The Differential Equation of Motion / Undamped Free Vibrations / Free Vibrations with Viscous Damping / Forced Vibrations / Energy Method / Problems

21. THREE-DIMENSIONAL KINETICS OF RIGID BODIES

General Theory of Moments of Inertia / Parallel-Axis Theorem / Ellipsoid of Inertia / Kinetic Energy of a Rigid Body / Angular Momentum of a Rigid Body / Three-Dimensional Equation of Motion for a Rigid Body / The Euler Equations of Motion / Rotation of a Rigid Body about a Fixed Axis / Gyroscopes / Problems / APPENDIX A: ALGEBRAIC EQUATIONS AND DETERMINANTS / APPENDIX B: GEOMETRIC, TRIGONOMETRIC, AND HYPERBOLIC RELATIONS / APPENDIX C: AREA MOMENTS OF INERTIA / APPENDIX D: PROPERTIES OF LINES, AREAS, AND VOLUMES / APPENDIX E: NUMERICAL INTEGRATION / APPENDIX F: MASS MOMENTS OF INERTIA / REFERENCES

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