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The Linear Equivalence Method - briefly, LEM - is author's original method. Unlike what is commonly understood by linearization, LEM establishes a one-to-one correspondence between the solutions of nonlinear and linear ordinary differential equations and systems, by means of an exponential mapping - author's idea. This justifies the denomination of LEM - the Linear Equivalence Method. LEM provides the users with an efficient and powerful tool that enables the free application of the methods of the linear, much easier handled and better founded that those of the nonlinear.This is why the applications of LEM cover a large area of domains and problems: from nonlinear mechanics (the nonlinear deformation of straight bars, the buckling of a straight bar, the nonlinear double pendulum, neo-Hookean or Ogden type models) to engineering (the motion of relativistic charged particles), chemistry (the Belousov-Zhabotinskij chemical reaction), biology (the Lotka-Volterra system), Fliess series, Lie derivatives, theory of graphs, theory of numbers (golden number) etc. This book presents LEM and its specific techniques and algorithms deduced by using the linear frame. It also emphasizes LEM's most pertinent applications, as mentioned above.It is addressed to all the specialists - in mathematics and/or in other domains as mechanics, engineering, physics, chemistry, biology, etc. - who deal with nonlinear ordinary differential equations and who are searching for an efficient tool to get solutions, both numerically and analytically. The understanding of the method requires only elementary notions of differential equations, analysis and algebra; in this respect, it should be mentioned that LEM was also applied by students in their graduation projects.
This interdisciplinary work creates a bridge between the mathematical and the technical disciplines by providing a strong mathematical tool. The present book is a new, English edition of the volume published in 1999. It contains many improvements, as well as new topics, using enlarged and updated references.
This interdisciplinary work creates a bridge between the mathematical and the technical disciplines by providing a strong mathematical tool. The present book is a new, English edition of the volume published in 1999. It contains many improvements, as well as new topics, using enlarged and updated references.
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