01238nam 2200349Ia 450 99638658540331620200824132947.0(CKB)1000000000616096(EEBO)2248531821(OCoLC)ocm13203259e(OCoLC)13203259(EXLCZ)99100000000061609619860226d1679 uy |laturbn||||a|bb|Colloquium Davidis cum anima sua[electronic resource] (accinente paraphrasim in 104 Psalmum) De magnalibus Dei : 25 ̊Martii 1678, fecit Cassid. Aureus MinutiusLondini Impensis Thomæ Burrell ...1679[3], 6 pWritten by Sir William Petty. Cf. Keynes, G. Bibl. of Sir William Petty, 1971, p. 15."Imprimatur Guil. Jane. August 31, 1678"Reproduction of original in Bodleian Library.Item at 1920:6 identified as M2197A (entry cancelled in Wing 2nd ed.).eebo-0014Petty WilliamSir,1623-1687.58176EAAEAAUMIWaOLNBOOK996386585403316Colloquium Davidis cum anima sua2329462UNISA05510nam 2200709Ia 450 991101995240332120200520144314.09786612687655978128268765312826876549783527628025352762802997835276280323527628037(CKB)1000000000790070(EBL)481783(OCoLC)441894470(SSID)ssj0000340199(PQKBManifestationID)11233222(PQKBTitleCode)TC0000340199(PQKBWorkID)10387433(PQKB)11086334(MiAaPQ)EBC481783(Perlego)2763831(EXLCZ)99100000000079007020081029d2009 uy 0engur|n|---|||||txtccrMathematical analysis of evolution, information, and complexity /edited by Wolfgang Arendt and Wolfgang P. SchleichWeinheim Wiley-VCHc20091 online resource (504 p.)Description based upon print version of record.9783527408306 3527408304 Includes bibliographical references and index.Mathematical Analysis of Evolution, Information, and Complexity; Contents; Preface; List of Contributors; Prologue; 1 Weyl's Law; 1.1 Introduction; 1.2 A Brief History of Weyl's Law; 1.2.1 Weyl's Seminal Work in 1911-1915; 1.2.2 The Conjecture of Sommerfeld (1910); 1.2.3 The Conjecture of Lorentz (1910); 1.2.4 Black Body Radiation: From Kirchhoff to Wien's Law; 1.2.5 Black Body Radiation: Rayleigh's Law; 1.2.6 Black Body Radiation: Planck's Law and the Classical Limit; 1.2.7 Black Body Radiation: The Rayleigh-Einstein-Jeans Law; 1.2.8 From Acoustics to Weyl's Law and Kac's Question1.3 Weyl's Law with Remainder Term. I1.3.1 The Laplacian on the Flat Torus T(2); 1.3.2 The Classical Circle Problem of Gauss; 1.3.3 The Formula of Hardy-Landau-Voronoï; 1.3.4 The Trace Formula on the Torus T(2) and the Leading Weyl Term; 1.3.5 Spectral Geometry: Interpretation of the Trace Formula on the Torus T(2) in Terms of Periodic Orbits; 1.3.6 The Trace of the Heat Kernel on d-Dimensional Tori and Weyl's Law; 1.3.7 Going Beyond Weyl's Law: One can Hear the Periodic Orbits of the Geodesic Flow on the Torus T(2); 1.3.8 The Spectral Zeta Function on the Torus T(2)1.3.9 An Explicit Formula for the Remainder Term in Weyl's Law on the Torus T(2) and for the Circle Problem1.3.10 The Value Distribution of the Remainder Term in the Circle Problem; 1.3.11 A Conjecture on the Value Distribution of the Remainder Term in Weyl's Law for Integrable and Chaotic Systems; 1.4 Weyl's Law with Remainder Term. II; 1.4.1 The Laplace-Beltrami Operator on d-Dimensional Compact Riemann Manifolds M(d) and the Pre-Trace Formula; 1.4.2 The Sum Rule for the Automorphic Eigenfunctions on M(d); 1.4.3 Weyl's Law on M(d) and its Generalization by Carleman1.4.4 The Selberg Trace Formula and Weyl's Law1.4.5 The Trace of the Heat Kernel on M(2); 1.4.6 The Trace of the Resolvent on M(2) and Selberg's Zeta Function; 1.4.7 The Functional Equation for Selberg's Zeta Function Z(s); 1.4.8 An Explicit Formula for the Remainder Term in Weyl's Law on M(2) and the Hilbert-Polya Conjecture on the Riemann Zeros; 1.4.9 The Prime Number Theorem vs. the Prime Geodesic Theorem on M(2); 1.5 Generalizations of Weyl's Law; 1.5.1 Weyl's Law for Robin Boundary Conditions; 1.5.2 Weyl's Law for Unbounded Quantum Billiards; 1.6 A Proof of Weyl's Formula1.7 Can One Hear the Shape of a Drum?1.8 Does Diffusion Determine the Domain?; References; 2 Solutions of Systems of Linear Ordinary Differential Equations; 2.1 Introduction; 2.2 The Exponential Ansatz of Magnus; 2.3 The Feynman-Dyson Series, and More General Perturbation Techniques; 2.4 Power Series Methods; 2.4.1 Regular Points; 2.4.2 Singularities of the First Kind; 2.4.3 Singularities of Second Kind; 2.5 Multi-Summability of Formal Power Series; 2.5.1 Asymptotic Power Series Expansions; 2.5.2 Gevrey Asymptotics; 2.5.3 Asymptotic Existence Theorems; 2.5.4 k-Summability2.5.5 Multi-SummabilityMathematical Analysis of Evolution, Information, and Complexity deals with the analysis of evolution, information and complexity. The time evolution of systems or processes is a central question in science, this text covers a broad range of problems including diffusion processes, neuronal networks, quantum theory and cosmology. Bringing together a wide collection of research in mathematics, information theory, physics and other scientific and technical areas, this new title offers elementary and thus easily accessible introductions to the various fields of research addressed in the book. Mathematical physicsMathematical analysisBoundary value problemsWeyl theoryMathematical physics.Mathematical analysis.Boundary value problemsWeyl theory.515530.15Arendt Wolfgang1950-54059Schleich Wolfgang65818MiAaPQMiAaPQMiAaPQBOOK9911019952403321Mathematical analysis of evolution, information, and complexity4421853UNINA