Elastic And Flexible Difference
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The Rational Mechanics of Flexible Or Elastic Bodies 1638 - 1788
Author: Leonhard Euler
language: en
Publisher: Springer Science & Business Media
Release Date: 1980
1 We search the concepts and methods ) of the theory of deformable sonds from GALILEO to LAGRANGE. Neither of them achieved much in our subject, but their works serve as 2 termini: With GALILEO's Discorsi in 1638 our matter begins ) (for this is the history of mathematical theory), while LAGRANGE's Mechanique Analitique closed the mechanics of 1) There are three major historical works that bear on our subject. The first is A history of the theory of elasticity and of the strength of materials by I. ToDHUNTER, "edited and completed" by K. PEARSON, Vol. I, Cambridge, 1886. Unfortunately it is necessary to give warning that this book fails to meet the standard set by the histories ToDHUNTER lived to finish. Much of what ToDHUNTER left seems to be rather the rough notes for a book than the book itself; the parts due to PEARSON are fortunately distinguished by square brackets. Researches prior to 1800 are disposed of in the first chapter, 79 pages long and almost entirely the work of PEARSON; as frontispiece to a work whose title restricts it to theory he saw fit to supply a possibly original pen drawing entitled "Rupture. Sur faces of Cast-Iron".
Science of Flexibility
Based on the latest research, this revised & updated edition includes detailed illustrations throughout & an expanded section of scholarly & professional references.
Novel Translational Advances in Hemodynamics for the Diagnosis and Treatment of Cardiovascular Diseases
Currently, hemodynamically guided diagnosis and treatment of cardiovascular diseases has vastly improved morbidity and mortality. However, many challenges remain, such as the increasing complexity of patients' conditions, the uneven level of overall treatment, the heavy task of medical and nursing staff in treating patients, and the accelerated updating and iteration of new technologies in the discipline. In clinic settings, obtaining direct clinical access of hemodynamic parameters remains challenging, mainly due to the potential risks of invasive measurements and expensive medical costs. Numerous experimental and simulation methods have been developed to address this deficiency to achieve noninvasive detection of hemodynamics. Two commonly utilized techniques are the representative particle image velocimetry (PIV) and computational fluid dynamics (CFD).