Products related to Kinematics:
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Rigid Body Kinematics
Master the conceptual, theoretical and practical aspects of kinematics with this exhaustive text, which provides a rigorous analysis and description of general motion in mechanical systems, with numerous examples from spinning tops to wheel ground-vehicles.Over 400 figures illustrate the main ideas and provide a geometrical interpretation and a deeper understanding of concepts, and exercises and problems throughout the text provide additional hands-on practice. Ideal for students taking courses on rigid body kinematics, and an invaluable reference for researchers.
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The Kinematics of Vorticity
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Advances in Robot Kinematics 2020
This book is of interest to researchers wanting to know more about the latest topics and methods in the fields of the kinematics, control and design of robotic systems.The papers cover the full range of robotic systems, including serial, parallel and cable-driven manipulators.The systems range from being less than fully mobile, to kinematically redundant, to over-constrained.The book brings together 43 peer-reviewed papers. They report on the latest scientific and applied achievements.The main theme that connects them is the movement of robots in the most diverse areas of application.
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Building Rural Community Resilience Through Innovation and Entrepreneurship
Drawing from empirical analyses, case studies, and a synthesis of best practices, this book explores how innovation manifests itself in rural places and how it contributes to entrepreneurial development and resilience.Innovation in rural places may come about as a result of new forms of collaboration; policies that leverage rural assets and address critical service or product gaps; novel strategies for accessing financial capital; infusion of arts into aspects of community life; and cultivation of networks that bridge entrepreneurs, organizations, and institutions.The chapters illustrate how a number of innovation-related characteristics relate to economic vibrancy in rural places such as a strong connection to the arts, adaptive and sustainable use of natural resources, value-chain integrated food systems, robust bridging social capital networks, creative leveraging of technology, and presence of innovation-focused entrepreneurs.Through exploration of these and other topics, this book will provide insights and best practices for rural community and economic development scholars and practitioners seeking to strengthen the rural innovation ecosystem.
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What is kinematics in physics?
Kinematics in physics is the branch of mechanics that deals with the motion of objects without considering the forces that cause the motion. It focuses on describing the position, velocity, and acceleration of objects as they move through space and time. By studying kinematics, we can analyze and predict the motion of objects based on their initial conditions and the forces acting upon them. It provides a fundamental framework for understanding and describing the motion of objects in the physical world.
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What is kinematics and dynamics?
Kinematics is the branch of physics that deals with the motion of objects without considering the forces that cause the motion. It focuses on describing the position, velocity, and acceleration of objects as they move through space and time. On the other hand, dynamics is the branch of physics that deals with the forces and torques that cause motion. It involves studying how forces and torques affect the motion of objects, including how they cause changes in velocity and acceleration. In summary, kinematics describes the motion of objects, while dynamics explains the forces and torques that cause that motion.
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What is included in kinematics?
Kinematics is the branch of physics that deals with the motion of objects without considering the forces that cause the motion. It includes the study of position, velocity, acceleration, and time, as well as the relationships between these quantities. Kinematics also involves the analysis of motion in terms of displacement, speed, and direction. Overall, kinematics provides a framework for understanding and describing the motion of objects in a mathematical and conceptual manner.
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Can you help me with kinematics?
Yes, I can help you with kinematics. Kinematics is the branch of physics that deals with the motion of objects without considering the forces that cause the motion. It involves concepts such as position, velocity, acceleration, and time. If you have specific questions or need help understanding kinematics concepts, feel free to ask and I'll do my best to assist you.
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Everyday Life-Environmentalism : Community Sustainability and Resilience in Asia
This book provides one of the first systematic introductions to the Japanese concept of life-environmentalism, Seikatsu-Kankyo Shugi.This concept emerged in the 1980s as a shared research framework among Japanese social scientists studying the adverse consequences of postwar industrialization on everyday life in communities. Life-environmentalism offers a lens through which the agency of small communities in sustaining their everyday life and living environment can be understood.The book provides an overview of this approach, including intellectual backgrounds and foundational concepts, along with a variety of empirical case studies that examine environmental and sustainability issues in Japan and other parts of Asia.It also includes critical reflections on the approach in light of contemporary sustainability challenges.The empirical topics covered in the book include local community responses to development projects, resource governance, disaster response and recovery, and historical environmental preservation.The chapters are contributed by researchers working at the forefront of the field.It provides only a glimpse into the vast literature that awaits further exploration and engagement in the future. The book is suitable for upper undergraduate students, graduate students, and researchers interested in environmental problems, sustainability and resilience, disaster mitigation and response, and regional development in Asian contexts, particularly Japan.It is well-suited for courses in anthropology, geography, sociology, urban and regional planning, political science, Asian studies, and environmental studies.
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Innovation in Music: Technology and Creativity
Innovation in Music: Technology and Creativity is a groundbreaking collection bringing together contributions from instructors, researchers, and professionals.Split into two sections, covering composition and performance, and technology and innovation, this volume offers truly international perspectives on ever-evolving practices. Including chapters on audience interaction, dynamic music methods, AI, and live electronic performances, this is recommended reading for professionals, students, and researchers looking for global insights into the fields of music production, music business, and music technology.
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Theory of Applied Robotics : Kinematics, Dynamics, and Control
Theory of Applied Robotics: Kinematics, Dynamics, and Control presents detailed robotics concepts at a theoretical-practical level, concentrating on their practical use.Related theorems and formal proofs are provided, as are real-life applications.This new edition is completely revised, and includes updated and expanded example sets and problems and new materials.This textbook is designed for undergraduate or first-year graduate programs in mechanical, systems, and industrial engineering.Practicing engineers, researchers, and related professionals will appreciate the book’s user-friendly presentation of a wealth of robotics topics, most notably in 3D kinematics and dynamics of manipulator robots.
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Dual-Number Methods in Kinematics, Statics and Dynamics
This well-organized book uses 3x3 coordinate-transformation matrices and 3-element vectors with dual-number elements to analyze the mechanics of mechanism, robots, and other mechanical systems.Dual-Number Methods in Kinematics, Statics and Dynamics serves as a text for a course using dual-number methods as well as a manual for the reader to develop his or her abilities for the design of machinery or evaluation of mechanical systems.In addition to the explanatory text and derivations, the author includes numerous examples and exercises to enable the reader to gain insight and perfect skills.
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What are practice exercises for kinematics?
Practice exercises for kinematics typically involve solving problems related to motion, velocity, acceleration, and displacement. These exercises may include calculating the velocity of an object at a specific time, determining the acceleration of an object given its initial velocity and displacement, or finding the displacement of an object over a certain time interval. Students may also be asked to analyze graphs of motion to understand the relationships between position, velocity, and acceleration. Practicing these types of problems helps students develop a deeper understanding of kinematics concepts and improve their problem-solving skills.
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Is the airplane drifted in kinematics?
No, an airplane is not considered to be "drifted" in the context of kinematics. In kinematics, the term "drift" typically refers to the horizontal movement of an object due to external forces such as wind or currents. However, in the study of airplane motion, the term "drift" is more commonly associated with the sideways movement of an airplane due to wind, rather than its overall motion in a straight line. Therefore, while an airplane may experience drift in the context of aviation, it is not a concept typically discussed within the realm of kinematics.
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Can you help me with kinematics problems?
Yes, I can help you with kinematics problems. Kinematics is the branch of physics that deals with the motion of objects without considering the forces that cause the motion. If you have specific problems or questions related to kinematics, feel free to ask and I will do my best to assist you.
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How do you calculate stopping in kinematics?
To calculate stopping in kinematics, you can use the equation v^2 = u^2 + 2as, where v is the final velocity, u is the initial velocity, a is the acceleration, and s is the distance. If the object is coming to a complete stop, the final velocity (v) will be 0. You can rearrange the equation to solve for the distance (s) it takes for the object to stop. This will give you the stopping distance for the object.
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