LEADER 01400nam a2200313 i 4500 001 991000687309707536 008 980521s1998 uk ||| | grc 020 $a019814685X 035 $ab1139528x-39ule_inst 035 $aPARLA213354$9ExL 040 $aDip.to Filol. Class. e di Scienze Filosofiche$bita 041 0 $agrclat 082 04$a882.0108 240 10$aFragmenta selecta$958991 245 10$aTragicorum graecorum Fragmenta selecta /$cedidit J. Diggle 260 $aOxonii :$be typographeo Clarendoniano,$c1998 300 $aIX, 182 p. ;$c19 cm. 490 0 $aScriptorum classicorum bibliotheca Oxoniensis 650 4$aTragici Greci$xFrammenti 700 1 $aDiggle, James 907 $a.b1139528x$b01-03-17$c01-07-02 912 $a991000687309707536 945 $aLE007 C T 8355$g1$i2007000050095$lle007$o-$pE0.00$q-$rn$so $t0$u0$v0$w0$x0$y.i11581372$z01-07-02 945 $aLE007 bibl. Oxon. Tragici graeci 01 c.2$g2$i2007000078921$lle007$op$pE39.50$q-$rn$so $t0$u0$v0$w0$x0$y.i1419742x$z24-02-06 945 $aLE015 BIBL. OXON. TRAGICI GRAECI 1$g1$i2015000050915$lle007$o-$pE0.00$q-$rn$so $t0$u0$v0$w0$x0$y.i11581384$z01-07-02 945 $aLE023 882.01 TRA 1 1$g1$i2023000072578$lle023$o-$pE50.00$q-$rn$so $t0$u0$v0$w0$x0$y.i14097709$z28-06-05 996 $aFragmenta selecta$958991 997 $aUNISALENTO 998 $a(3)le007$a(2)le023$b01-01-98$cm$da $e-$fgrc$guk $h0$i5 LEADER 02945nas 2200769-a 450 001 9910140889603321 005 20241221111425.0 035 $a(DE-599)ZDB2015964-X 035 $a(CKB)963018281163 035 $a(CONSER)---94664132- 035 $a(MiFhGG)0HUD 035 $a(EXLCZ)99963018281163 100 $a19940308b19942003 --- a 101 0 $aeng 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aMultiMedia schools 210 $aWilton, CT $cOnline, Inc.$d[1994]- 215 $a1 online resource 300 $a"A practical journal of multimedia, CD-ROM, online & Internet in K-12." 300 $aTitle from cover. 300 $aPublished: Medford, NJ : Information Today, Inc., 311 08$aPrint version: MultiMedia schools. 1075-0479 (DLC) 94664132 (OCoLC)29926033 517 3 $aMulti media schools 517 1 $aMMS 531 0 $aMultiMedia sch. 606 $aEducational technology$zUnited States$vPeriodicals 606 $aComputer-assisted instruction$zUnited States$vPeriodicals 606 $aMedia programs (Education)$zUnited States$vPeriodicals 606 $aEnseignement assisté par ordinateur$zÉtats-Unis$vPériodiques 606 $aProgrammes de technologie de l'enseignement$zÉtats-Unis$vPériodiques 606 $aTechnologie éducative$zÉtats-Unis$vPériodiques 606 $aComputer-assisted instruction$2fast$3(OCoLC)fst00872725 606 $aEducational technology$2fast$3(OCoLC)fst00903623 606 $aMedia programs (Education)$2fast$3(OCoLC)fst01013580 606 $aEnseignement primaire$2rasuqam 606 $aEnseignement secondaire$2rasuqam 606 $aInformatique éducative$2rasuqam 606 $aMultimédia$2rasuqam 606 $aTechnologie éducative$2rasuqam 607 $aUnited States$2fast$1https://id.oclc.org/worldcat/entity/E39PBJtxgQXMWqmjMjjwXRHgrq 607 $aÉtats-Unis$2rasuqam 608 $aPeriodicals.$2fast 608 $aPeriodicals.$2lcgft 608 $aPériodique électronique (Descripteur de forme)$2rasuqam 608 $aRessource 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$a(PPN)238034380 035 $a(EXLCZ)993400000000105269 100 $a20121227d1996 u| 0 101 0 $aeng 135 $aurnn|008mamaa 181 $ctxt 182 $cc 183 $acr 200 10$aNonlinear Differential Equations and Dynamical Systems /$fby Ferdinand Verhulst 205 $a2nd ed. 1996. 210 1$aBerlin, Heidelberg :$cSpringer Berlin Heidelberg :$cImprint: Springer,$d1996. 215 $a1 online resource (X, 306 p. 2 illus.) 225 1 $aUniversitext,$x2191-6675 300 $aBibliographic Level Mode of Issuance: Monograph 311 08$a3-540-60934-2 320 $aIncludes bibliographical references and index. 327 $a1 Introduction -- 1.1 Definitions and notation -- 1.2 Existence and uniqueness -- 1.3 Gronwall?s inequality -- 2 Autonomous equations -- 2.1 Phase-space, orbits -- 2.2 Critical points and linearisation -- 2.3 Periodic solutions -- 2.4 First integrals and integral manifolds -- 2.5 Evolution of a volume element, Liouville?s theorem -- 2.6 Exercises -- 3 Critical points -- 3.1 Two-dimensional linear systems -- 3.2 Remarks on three-dimensional linear systems -- 3.3 Critical points of nonlinear equations -- 3.4 Exercises -- 4 Periodic solutions -- 4.1 Bendixson?s criterion -- 4.2 Geometric auxiliaries, preparation for the Poincaré-Bendixson theorem -- 4.3 The Poincaré-Bendixson theorem -- 4.4 Applications of the Poincaré-Bendixson theorem -- 4.5 Periodic solutions in ?n -- 4.6 Exercises -- 5 Introduction to the theory of stability -- 5.1 Simple examples -- 5.2 Stability of equilibrium solutions -- 5.3 Stability of periodic solutions -- 5.4 Linearisation -- 5.5 Exercises -- 6 Linear Equations -- 6.1 Equations with constant coefficients -- 6.2 Equations with coefficients which have a limit -- 6.3 Equations with periodic coefficients -- 6.4 Exercises -- 7 Stability by linearisation -- 7.1 Asymptotic stability of the trivial solution -- 7.2 Instability of the trivial solution -- 7.3 Stability of periodic solutions of autonomous equations -- 7.4 Exercises -- 8 Stability analysis by the direct method -- 8.1 Introduction -- 8.2 Lyapunov functions -- 8.3 Hamiltonian systems and systems with first integrals -- 8.4 Applications and examples -- 8.5 Exercises -- 9 Introduction to perturbation theory -- 9.1 Background and elementary examples -- 9.2 Basic material -- 9.3 Naïve expansion -- 9.4 The Poincaré expansion theorem -- 9.5 Exercises -- 10 The Poincaré-Lindstedt method -- 10.1 Periodic solutions of autonomous second-order equations -- 10.2 Approximation of periodic solutions on arbitrary long time-scales -- 10.3 Periodic solutions of equations with forcing terms -- 10.4 The existence of periodic solutions -- 10.5 Exercises -- 11 Themethod of averaging -- 11.1 Introduction -- 11.2 The Lagrange standard form -- 11.3 Averaging in the periodic case -- 11.4 Averaging in the general case -- 11.5 Adiabatic invariants -- 11.6 Averaging over one angle, resonance manifolds -- 11.7 Averaging over more than one angle, an introduction -- 11.8 Periodic solutions -- 11.9 Exercises -- 12 Relaxation Oscillations -- 12.1 Introduction -- 12.2 Mechanical systems with large friction -- 12.3 The van der Pol-equation -- 12.4 The Volterra-Lotka equations -- 12.5 Exercises -- 13 Bifurcation Theory -- 13.1 Introduction -- 13.2 Normalisation -- 13.3 Averaging and normalisation -- 13.4 Centre manifolds -- 13.5 Bifurcation of equilibrium solutions and Hopf bifurcation -- 13.6 Exercises -- 14 Chaos -- 14.1 Introduction and historical context -- 14.2 The Lorenz-equations -- 14.3 Maps associated with the Lorenz-equations -- 14.4 One-dimensional dynamics -- 14.5 One-dimensional chaos: the quadratic map -- 14.6 One-dimensional chaos: the tent map -- 14.7 Fractal sets -- 14.8 Dynamical characterisations of fractal sets -- 14.9 Lyapunov exponents -- 14.10 Ideas and references to the literature -- 15 Hamiltonian systems -- 15.1 Introduction -- 15.2 A nonlinear example with two degrees of freedom -- 15.3 Birkhoff-normalisation -- 15.4 The phenomenon of recurrence -- 15.5 Periodic solutions -- 15.6 Invariant tori and chaos -- 15.7 The KAM theorem -- 15.8 Exercises -- Appendix 1: The Morse lemma -- Appendix 2: Linear periodic equations with a small parameter -- Appendix 3: Trigonometric formulas and averages -- Appendix 4: A sketch of Cotton?s proof of the stable and unstable manifold theorem 3.3 -- Appendix 5: Bifurcations of self-excited oscillations -- Appendix 6: Normal forms of Hamiltonian systems near equilibria -- Answers and hints to the exercises -- References. 330 $aOn the subject of differential equations many elementary books have been written. This book bridges the gap between elementary courses and research literature. The basic concepts necessary to study differential equations - critical points and equilibrium, periodic solutions, invariant sets and invariant manifolds - are discussed first. Stability theory is then developed starting with linearisation methods going back to Lyapunov and Poincaré. In the last four chapters more advanced topics like relaxation oscillations, bifurcation theory, chaos in mappings and differential equations, Hamiltonian systems are introduced, leading up to the frontiers of current research: thus the reader can start to work on open research problems, after studying this book. This new edition contains an extensive analysis of fractal sets with dynamical aspects like the correlation- and information dimension. In Hamiltonian systems, topics like Birkhoff normal forms and the Poincaré-Birkhoff theorem on periodicsolutions have been added. There are now 6 appendices with new material on invariant manifolds, bifurcation of strongly nonlinear self-excited systems and normal forms of Hamiltonian systems. The subject material is presented from both the qualitative and the quantitative point of view, and is illustrated by many examples. 410 0$aUniversitext,$x2191-6675 606 $aMathematical analysis 606 $aDynamics 606 $aMathematical physics 606 $aSystem theory 606 $aEngineering mathematics 606 $aEngineering$xData processing 606 $aAnalysis 606 $aDynamical Systems 606 $aTheoretical, Mathematical and Computational Physics 606 $aComplex Systems 606 $aMathematical and Computational Engineering Applications 615 0$aMathematical analysis. 615 0$aDynamics. 615 0$aMathematical physics. 615 0$aSystem theory. 615 0$aEngineering mathematics. 615 0$aEngineering$xData processing. 615 14$aAnalysis. 615 24$aDynamical Systems. 615 24$aTheoretical, Mathematical and Computational Physics. 615 24$aComplex Systems. 615 24$aMathematical and Computational Engineering Applications. 676 $a515/.355 700 $aVerhulst$b Ferdinand$4aut$4http://id.loc.gov/vocabulary/relators/aut$0441871 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910972127003321 996 $aNonlinear differential equations and dynamical systems$982990 997 $aUNINA