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Road Vehicle Dynamics
This book provides a detailed and well-rounded overview of the dynamics of road vehicle systems. Readers will come to understand how physical laws, human factor considerations, and design choices come together to affect a vehicle's ride, handling, braking, and acceleration. Following an introduction and general review of dynamics, topics include: analysis of dynamic systems; tire dynamics; ride dynamics; vehicle rollover analysis; handling dynamics; braking; acceleration; and total vehicle dynamics.
TEXTBOOK OF MECHANICAL VIBRATIONS
This comprehensive and accessible book, now in its second edition, covers both mathematical and physical aspects of the theory of mechanical vibrations. This edition includes a new chapter on the analysis of nonlinear vibrations. The text examines the models and tools used in studying mechanical vibrations and the techniques employed for the development of solutions from a practical perspective to explain linear and nonlinear vibrations. To enable practical understanding of the subject, numerous solved and unsolved problems involving a wide range of practical situations are incorporated in each chapter. This text is designed for use by the undergraduate and postgraduate students of mechanical engineering.
Mechanism and Machine Theory
This Book Evolved Itself Out Of 25 Years Of Teaching Experience In The Subject, Moulding Different Important Aspects Into A One Year Course Of Mechanism And Machine Theory. Basic Principles Of Analysis And Synthesis Of Mechanisms With Lower And Higher Pairs Are Both Included Considering Both Kinematic And Kinetic Aspects. A Chapter On Hydrodynamic Lubrication Is Included In The Book. Balancing Machines Are Introduced In The Chapter On Balancing Of Rotating Parts. Mechanisms Used In Control Namely, Governors And Gyroscopes Are Discussed In A Separate Chapter. The Book Also Contains A Chapter On Principles Of Theory Of Vibrations As Applied To Machines. A Solution Manual To Problems Given At T...
Spatial Mechanisms
Spatial Mechanisms: Analysis and Synthesis comprises the study of the three-dimensional relative motion between the components of a machine. Each chapter in this book presents a concise, but thorough, fundamental statement of the theory, principles, and methods. It then follows this with a selected number of worked examples. Numerous references provided at the end of chapters and the bibliography at the end of the book serve as helpful sources for further study.
Mechanical Vibrations
Mechanical Vibrations designed as a text for senior undergraduate and graduate students covers both analytical and physical aspects of mechanical vibrations. Each chapter consists of a concise but thorough fundamental statement of the theory, principles and methods. The classical methods of mechanical vibrations i.e. free vibration of single degree of freedom systems, harmonically forced vibrations of single degree of freedom systems, general forcing conditions and response, two degree of freedom systems, multi degree of freedom systems, analytical dynamics Lagrange's equation of motion, vibration of continuous systems, and approximate methods for finding natural frequencies and mode shapes, dynamic response by direct numerical integration methods, vibration control, and introduction to finite element method are covered in detail. In addition to students, practicing engineers should find this book immensely useful. All the end-of chapter problems are fully solved in the Solution Manual, available only to Instructors.
Solving Vibration Analysis Problems Using MATLAB
Solving Engineering Vibration Analysis Problems using MATLAB book is designed as an introductory undergraduate or graduate course for engineering students of all disciplines. Vibration analysis is a multidisciplinary subject and presents a system dynamics methodology based on mathematical fundamentals and stresses physical system modeling. The classical methods of vibration analysis engineering are covered: matrix analysis, Laplace transforms and transfer functions. The numerous worked examples and unsolved exercise problems are intended to provide the reader with an awareness of the general applicability of vibration analysis problems using MATLAB. An extensive bibliography to guide the student to further sources of information on vibration analysis using MATLAB is provided at the end of the book. All end-of chapter problems are fully solved in the Solution Manual available only to Instructors.
Computer Aided Analysis and Design of Machine Elements
Beginning with the formulation of specific design problems, this book goes on explains theories of failure. It considers factors involved in optimization of design, followed by a detailed description of static, transient and dynamic analysis.
Vehicle Dynamics
Growing worldwide populations increasingly require faster, safer, and more efficient transportation systems. These needs have led to a renewed interest in high-speed guided ground transportation technology, inspired considerable research, and instigated the development of better analytical and experimental tools. A very significant body of knowledge currently exists, but has primarily remained scattered throughout the literature. Vehicle Dynamics consolidates information from a wide spectrum of sources in the area of guided ground transportation. Each chapter provides a concise, thorough statement of the fundamental theory, followed by illustrative worked examples and exercises. The author a...
