Products related to Vibrations:
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Vibrations
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Universal Vibrations
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Vibrations and Waves
This introductory text emphasises physical principles, rather than the mathematics.Each topic begins with a discussion of the physical characteristics of the motion or system.The mathematics is kept as clear as possible, and includes elegant mathematical descriptions where possible.Designed to provide a logical development of the subject, the book is divided into two sections, vibrations followed by waves.A particular feature is the inclusion of many examples, frequently drawn from everyday life, along with more cutting-edge ones.Each chapter includes problems ranging in difficulty from simple to challenging and includes hints for solving problems.Numerous worked examples included throughout the book.
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Bai Ming : Vibrations de la Terre - Vibrations of the Earth
Born in 1965 about 100 kilometres from the former imperial porcelain factories of Jingdezhen in China, Bai Ming is a multi-facetted visual artist.A professor and lecturer, he is director of the Department of Ceramics at the Academy of Art and Design of Qinghua University in Beijing, and of the Shangyu Celadon International Art Centre of Contemporary Ceramics.He also heads two workshops, where he boldly mixes ancestral techniques, traditions and practices with those of international contemporary art.The delicacy of his technique in ceramics, painting and lacquer has revitalised Chinese porcelain, freeing it from its archaic forms.His creations have won major Chinese awards and are recognised by collectors around the world. Christine Shimizu, curator of the exhibition devoted to the artist at the Keramis Centre in Belgium, brings together various authors in this book: Mael Bellec, Antoinette Faÿ-Hallé, Jean-François Fouilhoux, Catherine Noppe and Ludovic Recchia.All testify, each in their own way, to their perception of Bai Ming's multifaceted work. The book follows an exhibition that will take place at Keramis from 16 November 2019 to 15 March 2020. Text in English and French.
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What are forced vibrations?
Forced vibrations occur when an external force is applied to a system, causing it to vibrate at a frequency determined by the force. This force can be periodic or random, and it can be applied continuously or intermittently. Forced vibrations can lead to resonance if the frequency of the external force matches the natural frequency of the system, resulting in amplified vibrations. Examples of forced vibrations include a guitar string being plucked or a tuning fork being struck.
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What are forced resonant vibrations?
Forced resonant vibrations occur when an external force is applied to a system at the same frequency as the system's natural frequency. This causes the amplitude of the vibrations to increase significantly, as the system absorbs energy from the external force. Forced resonant vibrations can lead to structural damage or failure if the system is not designed to withstand the increased amplitudes. It is important to understand and account for forced resonant vibrations in engineering design to prevent potential issues.
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What causes vibrations during acceleration?
Vibrations during acceleration can be caused by several factors such as unbalanced or worn-out tires, misaligned wheels, or issues with the suspension system. Additionally, problems with the driveshaft, CV joints, or engine mounts can also lead to vibrations when accelerating. It is important to address these issues promptly to prevent further damage to the vehicle and ensure a smooth driving experience.
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What are vibrations in ETS2?
Vibrations in ETS2 refer to the simulated feedback that the player experiences through the game's force feedback system. This feedback is typically felt through the steering wheel, pedals, and other input devices, and is designed to mimic the sensations of driving a real truck. Vibrations can be triggered by various in-game events such as hitting a bump, driving on different road surfaces, or making sharp turns, adding to the immersive experience of the game. Players can also customize the intensity and sensitivity of these vibrations to suit their preferences.
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Engineering Vibrations : International Edition
Intended for use in one/two-semester introductory courses in vibration for undergraduates in Mechanical Engineering, Civil Engineering, Aerospace Engineering and Mechanics.This text is also suitable for readers with an interest in Mechanical Engineering, Civil Engineering, Aerospace Engineering and Mechanics. Serving as both a text and reference manual, Engineering Vibration, 4e, connects traditional design-oriented topics, the introduction of modal analysis, and the use of MATLAB, Mathcad, or Mathematica.The author provides an unequaled combination of the study of conventional vibration with the use of vibration design, computation, analysis and testing in various engineering applications.
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Bad Vibrations (Deluxe Edition)
Sixth studio album from the American rock band which debuted in the UK Albums Chart at #6. Includes the singles 'Paranoia', 'Bad Vibrations', 'Bullfight', 'Naivety' and 'We Got This'. This deluxe edition features two bonus tracks.
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Random Vibrations : Theory and Applications
Random Vibrations: Theory and Applications investigates methods and theories involved in random vibration analyses of linear and nonlinear systems, as well as in predicting random vibration induced failures. This book is a lucid and well-paced introduction to random vibrations, superbly motivated and illustrated through a wealth of convincing applications in various engineering fields.The strong points of the book are its coverage of weakly stationary and ergodic random processes, spectral analysis of random processes, mode displacement superposition method, equivalent linearization technique for nonlinear random vibrations and an updated definition of rain flow cycle for fatigue analysis.Particularly appealing features of the book are its numerous examples and end-of-chapter exercises.This book offers a clear guide to the formulations and mathematical properties of random vibration analysis techniques, with an emphasis on practical applications rather than mathematical development for its own sake.However, some important mathematical formulas have been explicitly deduced in a detailed manner so that readers can go through the material in this book very smoothly and efficiently. This book is intended for upper undergraduate and graduate students who are interested in learning advanced techniques for performing random vibration analysis, researchers and scientists investigating linear and nonlinear systems under random external excitations, and aeronautical/civil/mechanical/structural/ocean engineers involved in the design and manufacture of real-world stochastically excited engineering systems.
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Mechanical Vibrations in SI Units
For courses in vibration engineering. Building Knowledge: Concepts of Vibration in Engineering Retaining the style of previous editions, this Sixth Edition of Mechanical Vibrations effectively presents theory, computational aspects, and applications of vibration, introducing undergraduate engineering students to the subject of vibration engineering in as simple a manner as possible.Emphasising computer techniques of analysis, Mechanical Vibrations thoroughly explains the fundamentals of vibration analysis, building on the understanding achieved by students in previous undergraduate mechanics courses.Related concepts are discussed, and real-life applications, examples, problems, and illustrations related to vibration analysis enhance comprehension of all concepts and material.In the Sixth Edition, several additions and revisions have been made—including new examples, problems, and illustrations—with the goal of making coverage of concepts both more comprehensive and easier to follow.
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What causes vibrations during driving?
Vibrations during driving can be caused by a variety of factors, including unbalanced or misaligned wheels, worn-out or damaged tires, suspension issues, or problems with the drivetrain. When the wheels are not properly balanced or aligned, they can create a wobbling effect that causes vibrations. Similarly, worn-out or damaged tires can develop uneven tread wear or bulges, leading to vibrations. Suspension issues, such as worn-out shocks or struts, can also cause the vehicle to vibrate during driving. Finally, problems with the drivetrain, such as worn-out universal joints or CV joints, can also lead to vibrations. Regular maintenance and inspections can help identify and address these issues to prevent vibrations during driving.
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What causes vibrations when accelerating?
Vibrations when accelerating can be caused by several factors, including unbalanced or worn-out tires, a misaligned suspension system, or issues with the driveshaft or CV joints. Additionally, problems with the engine or transmission mounts, as well as issues with the exhaust system, can also lead to vibrations during acceleration. It is important to have a professional mechanic inspect the vehicle to accurately diagnose and address the underlying cause of the vibrations.
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What are resonance-driven vibrations?
Resonance-driven vibrations occur when an external force is applied to a system at its natural frequency, causing the system to oscillate with increasing amplitude. This phenomenon is known as resonance, where the energy input from the external force is efficiently transferred to the system, leading to large vibrations. Resonance-driven vibrations can be beneficial in some applications, such as musical instruments, but can also be destructive if not properly controlled, as seen in structural failures due to resonance.
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What are resonance forced vibrations?
Resonance forced vibrations occur when an external force is applied to a system at its natural frequency, causing the system to oscillate with increasing amplitude. This phenomenon occurs when the frequency of the external force matches the natural frequency of the system, resulting in a buildup of energy within the system. Resonance forced vibrations can lead to structural damage or failure if not properly controlled, as the increased amplitudes can exceed the system's limits. It is important to understand and mitigate the effects of resonance forced vibrations in engineering and design to ensure the safety and longevity of structures and machinery.
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