Advanced Mechanical Vibrations
eBook - ePub

Advanced Mechanical Vibrations

Physics, Mathematics and Applications

Paolo Luciano Gatti

  1. 320 páginas
  2. English
  3. ePUB (apto para móviles)
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eBook - ePub

Advanced Mechanical Vibrations

Physics, Mathematics and Applications

Paolo Luciano Gatti

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Información del libro

Advanced Mechanical Vibrations: Physics, Mathematics and Applications provides a concise and solid exposition of the fundamental concepts and ideas that pervade many specialised disciplines where linear engineering vibrations are involved. Covering the main key aspects of the subject – from the formulation of the equations of motion by means of analytical techniques to the response of discrete and continuous systems subjected to deterministic and random excitation – the text is ideal for intermediate to advanced students of engineering, physics and mathematics. In addition, professionals working in – or simply interested in – the field of mechanical and structural vibrations will find the content helpful, with an approach to the subject matter that places emphasis on the strict, inextricable and sometimes subtle interrelations between physics and mathematics, on the one hand, and theory and applications, on the other hand. It includes a number of worked examples in each chapter, two detailed mathematical appendixes and an extensive list of references.

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Información

Editorial
CRC Press
Año
2020
ISBN
9781351008587
Edición
1
Categoría
Technology & Engineering
Categoría
Acoustical Engineering

Chapter 1

A few preliminary fundamentals

1.1 Introduction

In the framework of classical physics – that is, the physics before the two ‘revolutions’ of relativity and quantum mechanics in the first 20–30 years of the twentieth century – a major role is played by Newton’s laws. In particular, the fact that force and motion are strictly related is expressed by Newton’s second law F=dp/dt, where p=mv and we get the familiar F=ma if the mass is constant. This equation is definitely a pillar of (classical) dynamics, and one of the branches of dynamics consists in the study, analysis and prediction of vibratory motion, where by this term one typically refers to the oscillation of a physical system about a stable equilibrium position as a consequence of some initial disturbance that sets it in motion or some external excitation that makes it vibrate.

1.2 Modelling vibrations and vibrating systems

In order to make sense of the multifarious complexities of real-life physical systems and achieve useful results, one must resort to models, that is, idealisations of the actual system/phenomenon under study based on some set of (simplifying) initial assumptions. Models can be mathematical or non-mathematical but, by their very nature, have limits of validity and entail some kind of division into classes or categories that, although often convenient, are in almost all cases neither absolute nor sharply defined. Needless to say, the field of vibrations is no exception.
First, according to their response behaviour to excitations, systems can be classified as linear or nonlinear, where, formally, linear systems obey linear differential equations. The fundamental fact is that for a linear system, the principle of superposition applies, this meaning that (a) its response/output is proportional to the excitation/input and (b) its response to the simultaneous application of the excitations f1,f2 is x1+x2, where x1,x2 are the system’s responses to the individual application of f1 and f2. Linearity, however, is not an intrinsic property of a system but depends on the operating conditions, and it generally applies only for small amplitudes of vibration. In this book, our attention will be focused on linear systems, whereas for non-linear vibrations – where things are definitely more complicated, and so far, there is no comprehensive theory – we refer the interested reader to the specific literatures (e.g. Schmidt and Tondl 1986, Thomsen 2003 or Moon 2004).
Second, according to their physical characteristics – typically mass, elasticity and energy dissipation mechanisms, the so...

Índice

  1. Cover
  2. Half Title
  3. Title Page
  4. Copyright Page
  5. Dedication
  6. Table of Contents
  7. Preface
  8. Acknowledgements
  9. Frequently used acronyms
  10. 1 A few preliminary fundamentals
  11. 2 Formulating the equations of motion
  12. 3 Finite DOFs systems: Free vibration
  13. 4 Finite-DOFs systems: Response to external excitation
  14. 5 Vibrations of continuous systems
  15. 6 Random vibrations
  16. Appendix A: On matrices and linear spaces
  17. Appendix B: Fourier series, Fourier and Laplace transforms
  18. References and further reading
  19. Index
Estilos de citas para Advanced Mechanical Vibrations

APA 6 Citation

Gatti, P. L. (2020). Advanced Mechanical Vibrations (1st ed.). CRC Press. Retrieved from https://www.perlego.com/book/1882003/advanced-mechanical-vibrations-physics-mathematics-and-applications-pdf (Original work published 2020)

Chicago Citation

Gatti, Paolo Luciano. (2020) 2020. Advanced Mechanical Vibrations. 1st ed. CRC Press. https://www.perlego.com/book/1882003/advanced-mechanical-vibrations-physics-mathematics-and-applications-pdf.

Harvard Citation

Gatti, P. L. (2020) Advanced Mechanical Vibrations. 1st edn. CRC Press. Available at: https://www.perlego.com/book/1882003/advanced-mechanical-vibrations-physics-mathematics-and-applications-pdf (Accessed: 15 October 2022).

MLA 7 Citation

Gatti, Paolo Luciano. Advanced Mechanical Vibrations. 1st ed. CRC Press, 2020. Web. 15 Oct. 2022.