Evolutionary Biomechanics
Title | Evolutionary Biomechanics PDF eBook |
Author | Graham K. Taylor |
Publisher | Oxford University Press, USA |
Pages | 172 |
Release | 2014 |
Genre | Language Arts & Disciplines |
ISBN | 0198566387 |
This title discusses the study of evolution through the analysis of biomechanical systems. Instead of reviewing the entire breadth of the biomechanical literature, a few key examples are explored in depth as vehicles for discussing fundamental concepts, analytical techniques, and evolutionary theory.
Evolutionary Biomechanics of Sound Production and Reception
Title | Evolutionary Biomechanics of Sound Production and Reception PDF eBook |
Author | Carl Soulsbury |
Publisher | Frontiers Media SA |
Pages | 177 |
Release | 2022-01-20 |
Genre | Science |
ISBN | 2889715329 |
The Evolution of Biomechanics
Title | The Evolution of Biomechanics PDF eBook |
Author | Stephen Braybrook |
Publisher | |
Pages | 217 |
Release | 2016 |
Genre | Biomechanics |
ISBN | 9780995503304 |
Comparative Biomechanics
Title | Comparative Biomechanics PDF eBook |
Author | Steven Vogel |
Publisher | Princeton University Press |
Pages | 640 |
Release | 2013-06-17 |
Genre | Science |
ISBN | 1400847826 |
The classic textbook on comparative biomechanics—revised and expanded Why do you switch from walking to running at a specific speed? Why do tall trees rarely blow over in high winds? And why does a spore ejected into air at seventy miles per hour travel only a fraction of an inch? Comparative Biomechanics is the first and only textbook that takes a comprehensive look at the mechanical aspects of life—covering animals and plants, structure and movement, and solids and fluids. An ideal entry point into the ways living creatures interact with their immediate physical world, this revised and updated edition examines how the forms and activities of animals and plants reflect the materials available to nature, considers rules for fluid flow and structural design, and explores how organisms contend with environmental forces. Drawing on physics and mechanical engineering, Steven Vogel looks at how animals swim and fly, modes of terrestrial locomotion, organism responses to winds and water currents, circulatory and suspension-feeding systems, and the relationship between size and mechanical design. He also investigates links between the properties of biological materials—such as spider silk, jellyfish jelly, and muscle—and their structural and functional roles. Early chapters and appendices introduce relevant physical variables for quantification, and problem sets are provided at the end of each chapter. Comparative Biomechanics is useful for physical scientists and engineers seeking a guide to state-of-the-art biomechanics. For a wider audience, the textbook establishes the basic biological context for applied areas—including ergonomics, orthopedics, mechanical prosthetics, kinesiology, sports medicine, and biomimetics—and provides materials for exhibit designers at science museums. Problem sets at the ends of chapters Appendices cover basic background information Updated and expanded documentation and materials Revised figures and text Increased coverage of friction, viscoelastic materials, surface tension, diverse modes of locomotion, and biomimetics
IUTAM Symposium on Evolutionary Methods in Mechanics
Title | IUTAM Symposium on Evolutionary Methods in Mechanics PDF eBook |
Author | Tadeusz Burczynski |
Publisher | Springer Science & Business Media |
Pages | 372 |
Release | 2006-04-11 |
Genre | Science |
ISBN | 1402022670 |
Proceedings of the IUTAM Symposium held in Cracow, Poland, 24-27 September 2002
Clinical Biomechanics in Human Locomotion
Title | Clinical Biomechanics in Human Locomotion PDF eBook |
Author | Andrew Horwood |
Publisher | Elsevier |
Pages | 718 |
Release | 2023-03-16 |
Genre | Technology & Engineering |
ISBN | 0323853684 |
Origins and Principles of Clinical Biomechanics in Human Locomotion discusses key concepts of how biomechanics links to the development of pathology through mechanical laws, anatomy, physiology and health. It provides fundamental principles and practical data, and guidance of how to apply these in the clinical biomechanics field. Coverage includes: major joint movement, muscle action around joints, physiology and patho-physiology of bone, muscle and neurologic disorders. This reference is ideal for teaching students in biomechanics, orthopedics and physiotherapy. It should also be of interest to product development engineers, rehabilitation engineers, those working in prosthetics and orthotics, physiotherapists and occupational therapists. The authors explore the simple laws of motion as applied to anatomy and physiology, in order to help readers understand human pathology within the human lower limb and mobility. They then go on to look at materials science concerns within this field, such as engineering stresses and strains, principles and types of material properties and the shaping of structural properties. Readers will also find within this book information on tissue science, force generation, biological sciences, evolution in biomechanics, human gait, functional units of the lower limb and foot, and finally pathomechanical principles; all as applied to clinical biomechanics. Bridges the void between research biomechanics and clinically applied biomechanics Links human locomotive biomechanics to medicine, physiology and evolutionary anatomy and medicine Prepares students, bioengineers and clinicians for the reality of utilizing biomechanical principles in clinical practice, while informing researchers of the environment limits that most clinical biomechanics practice occurs in
Plant Biomechanics
Title | Plant Biomechanics PDF eBook |
Author | Karl J. Niklas |
Publisher | University of Chicago Press |
Pages | 630 |
Release | 1992-08 |
Genre | Science |
ISBN | 0226586316 |
In this book, the author analyzes plant form and how it has evolved in response to basic physical laws. He examines the ways these laws limit the organic expression of form, size, and growth in a variety of plant structures and in plants as whole organisms, drawing on both the fossil record and studies of extant species.