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| Chandra & Scott | Coupled nonlinear oscillators | |
| Chandrasekhar | Hydrodynamic and hydromagnetic stability | |
| Charmet, Roux & Guyon | Disorder and fracture | |
| Chester | Mechanics | |
| Childress | Mechanics of swimming and flying | |
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| Chorlton | Vector and tensor methods | |
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| Chulaevsky | Almost periodic operators and related nonlinear integrable systems | |
| Ciarlet | Introduction to numerical linear algebra and optimisation | |
| Clarke & McChesney | Dynamics of relaxing gases | |
| Clemmow | The plane wave spectrum representation of electromagnetic fields | |
| Cochran | Applied mathematics: principles, techniques and applications | |
| Cohn | Linear equations | |
| Cole | Perturbation methods in applied mathematics | |
| Comte-Bellot & Ffowcs Williams | Aero- and hydro-acoustics: IUTAM symposium Lyon 1985 | |
| Copson | Partial differential equations | |
| Coullet & Huerre | New trends in nonlin.dyn. & pattern-forming phenomena: geom non= | |
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| Coulson & Boyd | Electricity 2nd ed | |
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| Curle & Davies | Modern fluid dynamics: volume II | |
| Davies | The new physics | |
| Davies & James | Nonlinear differential equaions | |
| Davydov | Solitons in molecular systems | |
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| Debnath | Nonlinear waves | |
| Dijkstra | Floating, flowing, flying | |
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| Eckhaus & Van Marten | Inverse scattering transformation & the theory of solitons:introduction | |
| Edelyi | Asymptotic expansions | |
| Eilenberger | Solitons: mathematical methods for physicists | |
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| Engelbrecht | Nonlinear wave processes of deformation in solids | |
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| Engelbrecht, Fridman & Pelinovski | Nonlinear waves in active media: proceedings | |
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| Fay | Introduction to fluid mechanics | |
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| Fiedler | Structures of mechanisms of turbulence I: Proc Berlin !977 LNP75 | |
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| Flatte | Sound transmission through a fluctuating ocean | |
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| Fordy | Soliton theory: a survey of results | |
| Fowler | Mathematical models in the applied sciences | |
| Freund | Dynamic fracture mechanics | |
| Geurts, Kuerten & Kuiken | PJZandbergen's life as innovator,inspirator&instigator in numerical FD | |
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| Goldstein | Modern developments in FD: account of theory & experiment…vI,II | |
| Gottlieb & Orszag | Numerical analysis of spectral methods: theory and applications | |
| Gradshteyn & Rhyzhik | Table of integrals series and products | |
| Granger | Fluid mechanics | |
| Gray & Scott | Chemical oscillations and instabilities: non-linear chemical kinetics | |
| Greenspan | The theory of rotating fluids (CMMAM) | |
| Greig | Optimisation | |
| Grindrod | Patterns & waves: the theory & applications of reaction-diffusion eqns | |
| Guckenheimer & Holmes | Nonlinear oscillations, dynamical systems and bifurcations | |
| Gumowski | Oscillatory evolution processes: quant analysis arising from appl sci | |
| Hagedorn | Non-linear oscillations | |
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| Hitchin | Partial derivatives | |
| Hoffmans | Vortex sound in confined flows | |
| Holden | Chaos | |
| Hornung & Muller | Vortex motion | |
| Howarth | Modern developments in fluid dynamics: high speed flow vols I & II | |
| Hudson | The excitation and propagation of elastic waves (CMMAM) | |
| Hunter | Mechanics of continuous media | |
| Huntley & Johnson | Linear and nonlinear differential equations | |
| Hyslop | Infinite series | |
| IAU | Gas dynamics & cosmic clouds: symposium Cambridge July 1953 | |
| Ince | Ordinary differential equations | |
| Ince | Integration of ordinary differential equations | |
| Infeld & Rowlands | Nonlinear waves, solitons and chaos | |
| Ingard | Fundamentals of waves and solitons | |
| Inst Fluid Science, Tohoku | Shock wave/vortex interaction: proc 2nd workshop Sendai Japan 97 | |
| Jackson | Classical electrodynamics | |
| Japan Soc Mechanical Engineer | Visualized flow | |
| Jeffrey | Complex analysis and applications | |
| Jeffrey | Quasilinear hyperbolic systems and waves | |
| Jeffrey | Linear algebra and ordinary differential equations | |
| Jeffreys | Cartesian tensors | |
| Jeffreys & Swirles | Mathematical physics | |
| JFM reprint - Boeing symposium | Turbulence, symposium Seattle 1969 | |
| Jimenez | The role of coherent structures in modelling turbulence & mixing | |
| Johnson | Contact mechanics | |
| Jordan & Smith | Nonlinear ordinary differential equations 2nd ed 1987 | |
| Jordan & Smith | Nonlinear ordinary differential equations ist ed 1977 | |
| Jose & Saletan | Classical dynamics: a contemporary approach | |
| Junger & Feit | Sound, structures and their interaction | |
| Keener | Principles of applied mathematics: transformation & approximation | |
| Kelbert & Sazonov | Pulses and other wave processes in fluids | |
| Kendrinskii | Problems of nonlinear acoustics part I: Xith symp 1987 Russian/Eng | |
| Kirchgassner, Mahrenholtz et al | Mathematical research volume 87: ICIAM 97 | |
| Kobayashi | Laminar-turbulent transition | |
| Korsunsky | Nonlinear waves in dispersive & dissipative systems with coupled .. | |
| Kosinski | Field singularities and wave analysis in continuum mechanics | |
| Krasner | The ubiquity of chaos | |
| Krothapalli & Smith | Recent advances in aerodynamics | |
| Kundu | Fluid mechanics | |
| Kuramoto | Chemical oscillations, waves and turbulence | |
| Lagerstrom, Howard & Liu | Fluid mechanics & singular perturbations: collection of Kaplun papers | |
| Lambeck | Earth's variable rotation: geophysical causes & consequences (CMM | |
| Lammers | The stability of bubbly flows - thesis | |
| Landahl & Mollo-Christensen | Turbulence and random processes in fluid mechanics | |
| Landau & Lifshitz | Fluid mechanics (course of theoretical physics vol 6) | |
| Landau & Lifshitz | The classical theory of fields: course of theoretical physics vol 2 | |
| Lauterborn | Cavitation and inhomogeneities in underwater acoustics | |
| Lawden | Tensor calculus and relativity | |
| Lebedev, Skalskaya & Uflyand | Worked problems in applied mathematics | |
| LeBlond and Mysak | Waves in the ocean | |
| Lee & McDaniel | Ocean acoustic propagation | |
| Lee & Schultz | Numerical ocean acoustic propagation in three dimensions | |
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| Lesser | Analysis of complex nonlinear mechanical systems:computer alg app | |
| Lewin | Dilogarithms and associated functions | |
| Lighthill | Informal introduction to theoretical fluid mechanics | |
| Lighthill | An informal introduction to theoretical fluid mechanics | |
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| Lindblad | Noise generation by rotors in the subsonic to transomic regine | |
| Lockwood | I Finite amplitude sound propagation II Diffraction of N waves | |
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| Logan | An introduction to nonlinear partial differential equations | |
| Lorentz | The essence of chaos | |
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| Mandelbrot | Fractals: form, chance and dimension | |
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| Matsuno | Bilinear transformation method | |
| Maugin | The thermomechanics of plasticity and fracture | |
| McCrea | Analytical geometry of three dimensions | |
| McKenna & Temam | 1st int conf on industrial & applied mathematics: IUTAM 87 | |
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| Meier & Thompson | Adiabatic waves in liquid-vapor systems | |
| Miles | The potential theory of unsteady supersonic flow (CMMAM) | |
| Milne-Thompson | Theoretical aerodynamics | |
| Miur | Nonlinear acoustics:Proceedings 1969 ARL symposium | |
| Moffatt, Zaslavsky,Comte,Tabor | Topological aspects of the dynamics of fluids and plasmas | |
| Monin & Yaglom | Statistical fluid mechanics volume 2 | |
| Monin & Yaglom | Statistical fluid mechanics: volume 1 | |
| Moon | Chaotic vibrations: an introduction for applied scientists & engineers | |
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| Munk & Macdonald | The rotation of the earth: a geophysical discussion (CMMAM) | |
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| Murdock | Perturbations theory and methods | |
| Murray | Asymptotic analysis | |
| Murray | Asymptotic analysis | |
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| Naval Underwater System Cent. | Nonlinear acoustics 1954-83: scientific & engineering studies | |
| Neftci | An introduction to the mathematics of financial derivatives | |
| Newell | Solitons in mathematics and physics | |
| Newell & Moloney | Nonlinear optics | |
| Newell, Ratiu, Tabor & Yunbo | Soliton mathematics | |
| Nichelatti, Pallotti & Pettazzoni | Basic theory of stochastic processes | |
| Nicolas | Structural acoustics and vibration | |
| Nieuwstadt & Steketee | Selected papers of J M Burgers | |
| Nigul & Engelbrecht | Nonlinear deformation waves: IUTAM symposium Tallinn 1982 | |
| Novikov, Manakov, Pitaevskii et al | Theory of solitons: the inverse scattering method | |
| Novikov, Rudenko & Timoshenko | Nonlinear underwater acoustics | |
| Ockendon & Ockendon | Viscous flow | |
| Ockendon & Tayler | Inviscid fluid flows | |
| O'Connor | Writing successfully in science | |
| O'Malley | Singular perturbation methods for ordinary differential equations | |
| O'Malley | Thinking about ordeinary differential equations | |
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| Parker & Maugin | Recent developments in surface acoustic waves: coll.Nottingham '87 | |
| Paterson | A first course in fluid dynamics | |
| Pedley | The fluid mechanics of large blood vessels (CMMAM) | |
| Pedlosky | Geophysical fluid dynamics | |
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| Pippard | The physics of vibration volume 1 | |
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| Pisitgen & Saupe | The science of fractal images | |
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| Rindler | Essential relativity | |
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| Russel, Saville & Schowalter | Colloidal dispersions | |
| Rutherford | Fluid dynamics: theoretical and computational approaches | |
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| Shen | The principles of nonlinear optics | |
| Shen & Gelfand | Algebra | |
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| Shivamdggi | Theoretical fluid mechanics | |
| SIAM | Reprints Jan 12-14 1987, Claremont Colleges, California | |
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| Simpson | Sea breeze and local wind | |
| Smith | Introductory mathematics: algebra and analysis | |
| Sneddon | Special functions | |
| Sod | Numerical methods in fluid dynamics | |
| Sparrow | The Lorentz equations: bifurcations, chaos & strange attractors | |
| Speigel | Advanced calculus: Schaum's outline series | |
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| Spencer | Continuum mechanics | |
| Stephenson | Partial differential equations for scientists and engineers | |
| Stephenson | Worked examples in mathematics for scientists and engineers | |
| Stephenson & Radmore | Advanced mathematics methods for engineering & science students | |
| Stewart | Does God play dice? | |
| Stewart | Advanced general relativity | |
| Strogatz | Nonliner dynamics & chaos with app. To physics,chemistry,bio,eng | |
| Swinney & Gollub | Hydrodynamic instabilities: the transition to turbulence | |
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| Thompson & Stewart | Nonlinear dynamics and chaos | |
| Thwaites | Incompressible aerodynamics | |
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| Tolstoy | Wave propagation | |
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| Tritton | Physical fluid dynamics | |
| Tritton | Physical fluid dynamics | |
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| Van Dyke | An album of fluid motion | |
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| Van Wijngaarden | Mechanics & physics of bubbles in liquids:IUTAM symp Calif. 1981 | |
| Verge | Aeroacoustics of confined jets+appl to physical modeling of recorders | |
| Visualization society of Japan | Fantasy of flow: the world of fluid flow captured in photographs | |
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| Warnatz, Maas & Dibble | Combustion | |
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| White & Gribbin | Stephen Hawking: a life in science | |
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| Whittaker & Watson | A course of modern analysis | |
| Wiggins | Global bifurcations and chaos: analytical methods | |
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| Woyczynski & Funaki | Nonlinear stochastic PDEs: hydrodynamic limit & Burgers' turbulence | |
| Yih | Stratified flows | |
| Zykov | Simulation of wave processes in excitable media (translation) |