Asymptotic Multiple Scale Method in Time Domain: Multi-Degree-of-Freedom Stationary and Nonstationary...

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Jan Awrejcewicz (Lodz University, Poland) Roman Starosta (Poznan University of Technology, POLAND)

Asymptotic Multiple Scale Method in Time Domain

Multi-Degree-of-Freedom Stationary and Nonstationary Dynamics

Jan Awrejcewicz (Lodz University, Poland), Roman Starosta (Poznan University of Technology, POLAND), Grażyna Sypniewska-Kamińska (POZNAN UNIVERSITY OF TECHNOLOGY, POLAND)

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English

CRC Press
11 May 2022

Applied mathematics; Maths for engineers; Nanotechnology; Dynamics & vibration; Systems analysis & design

This book offers up novel research which uses analytical approaches to explore nonlinear features exhibited by various dynamic processes. Relevant to disciplines across engineering and physics, the asymptotic method combined with the multiple scale method is shown to be an efficient and intuitive way to approach mechanics.

Beginning with new material on the development of cutting-edge asymptotic methods and multiple scale methods, the book introduces this method in time domain and provides examples of vibrations of systems. Clearly written throughout, it uses innovative graphics to exemplify complex concepts such as nonlinear stationary and nonstationary processes, various resonances and jump pull-in phenomena. It also demonstrates the simplification of problems through using mathematical modelling, by employing the use of limiting phase trajectories to quantify nonlinear phenomena. Particularly relevant to structural mechanics, in rods, cables, beams, plates and shells, as well as mechanical objects commonly found in everyday devices such as mobile phones and cameras, the book shows how each system is modelled, and how it behaves under various conditions.

It will be of interest to engineers and professionals in mechanical engineering and structural engineering, alongside those interested in vibrations and dynamics. It will also be useful to those studying engineering maths and physics.

By: Jan Awrejcewicz (Lodz University Poland), Roman Starosta (Poznan University of Technology, POLAND), Grażyna Sypniewska-Kamińska (POZNAN UNIVERSITY OF TECHNOLOGY, POLAND)
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions: Height: 234mm, Width: 156mm,
Weight: 694g
ISBN: 9781032219417
ISBN 10: 1032219416
Pages: 396
Publication Date: 11 May 2022
Audience: College/higher education , General/trade , Primary , ELT Advanced
Format: Hardback
Publisher's Status: Active

1. Introduction 2. Spring Pendulum 3. Spring Pendulum Kinematically Excited 4. Spring Pendulum Revisited 5. Physical Spring Pendulum 6. Nonlinear Torsional Micromechanical Gyroscope 7. Torsional Oscillations of Two Disks Rotating System 8. Oscillator with Springs-in-Series 9. Periodic Vibrations of Nano/Micro Plates

Jan Awrejcewicz is Head of the Department of Automation, Biomechanics and Mechatronics at Lodz University of Technology. His research covers mechanics, material science, biomechanics, applied mathematics, automation, physics and computer sciences, with his main focus being nonlinear processes. He has authored 850 journal papers and is Editor-in-Chief of three international journals. Additionally, Professor Awrejcewicz is recipient of numerous scientific awards including The Alexander von Humboldt Award for research and educational achievements. Roman Starosta is Professor at the Institute of Applied Mechanics, Poznan University of Technology (PUT), Poland, where he is the head of the Department of Technical Mechanics. His area of research includes dynamics of structures, fluid mechanics, asymptotic methods, and computational systems of algebra. Professor Starosta is a member of the main board of the Polish Society of Theoretical and Applied Mechanics, and chairman of several editions of the conference on Vibrations in Physical Systems. Grażyna Sypniewska-Kamińska is currently Associate Professor at Poznan University of Technology, and has been at the Institute of Applied Mechanics since 1990. Her area of research covers nonlinear dynamics, asymptotic methods, computer methods in the area of applied mechanics of continuous and discrete systems, and inverse problems of heat conduction. She teaches mechanics, analytical mechanics, elasticity theory, mathematical physics as well as algorithmics, programming languages, and computer graphics.