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Zeros of polynomials and solvable nonlinear evolution equations

Reporting a novel breakthrough in the identification and investigation of solvable and integrable nonlinearly coupled evolution ordinary differential equations (ODEs) or partial differential equations (PDEs), this text includes practical examples throughout to illustrate the theoretical concepts. Be...

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Bibliographic Details
Main Author: Calogero, Francesco
Format: eBook
Language:English
Published: Cambridge Cambridge University Press 2018
Subjects:
Evolution Equations, Nonlinear
Zero (the Number)
Polynomials
Differential Equations, Partial
Differential Equations, Nonlinear
Online Access:
Collection: Cambridge Books Online - Collection details see MPG.ReNa
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100 1 |a Calogero, Francesco 
245 0 0 |a Zeros of polynomials and solvable nonlinear evolution equations  |c Francesco Calogero 
260 |a Cambridge  |b Cambridge University Press  |c 2018 
300 |a x, 168 pages  |b digital 
505 0 |a Introduction -- Parameter-dependent monic polynomials : definitions and key formulas -- A differential algorithm to compute all the zeros of a generic polynomial -- Solvable and integrable nonlinear dynamical systems (mainly Newtonian N-body problems in the plane) -- Solvable systems of nonlinear partial differential equations (PDEs) -- Generations of monic polynomials -- Discrete-time -- Outlook 
653 |a Evolution equations, Nonlinear 
653 |a Zero (The number) 
653 |a Polynomials 
653 |a Differential equations, Partial 
653 |a Differential equations, Nonlinear 
041 0 7 |a eng  |2 ISO 639-2 
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856 4 0 |u https://doi.org/10.1017/9781108553124  |x Verlag  |3 Volltext 
082 0 |a 530.155353 
520 |a Reporting a novel breakthrough in the identification and investigation of solvable and integrable nonlinearly coupled evolution ordinary differential equations (ODEs) or partial differential equations (PDEs), this text includes practical examples throughout to illustrate the theoretical concepts. Beginning with systems of ODEs, including second-order ODEs of Newtonian type, it then discusses systems of PDEs, and systems evolving in discrete time. It reports a novel, differential algorithm which can be used to evaluate all the zeros of a generic polynomial of arbitrary degree: a remarkable development of a fundamental mathematical problem with a long history. The book will be of interest to applied mathematicians and mathematical physicists working in the area of integrable and solvable non-linear evolution equations; it can also be used as supplementary reading material for general applied mathematics or mathematical physics courses 

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