00648nam2 22002531i 450 99000236435040332120060127141735.0000236435FED01000236435(Aleph)000236435FED0100023643520030910d--------km-y0itay50------baengOrder AgelasidaClaude Levi, Jean Vaceletp. 94-96001000222969Levi,Claude91732Vacelet,Jean493216ITUNINARICAUNIMARCAN990002364350403321FFABCOrder Agelasida440876UNINA01234nam 2200337Ia 450 99639639210331620200818211608.0(CKB)4940000000057758(EEBO)2240969340(OCoLC)ocm12589021e(OCoLC)12589021(EXLCZ)99494000000005775819850923d1688 uy |engurbn||||a|bb|A letter from the Jesuits in the Savoy to the Jesuits at S. Omers, giving an account of the affairs of England, taken from the priests in the Dover coach, together with 200 guineas[electronic resource]From our colledge in the Savoy [London] [s.n.]16881 sheet ([1] p.)Reproduction of original in Huntington Library.Broadside.eebo-0113BroadsidesrbgenrR. P829972EAAEAAm/cWaOLNBOOK996396392103316A letter from the Jesuits in the Savoy to the Jesuits at S. Omers, giving an account of the affairs of England, taken from the priests in the Dover coach, together with 200 guineas2361601UNISA10961nam 2200517 450 991057406820332120231110221120.03-030-95607-5(MiAaPQ)EBC7001180(Au-PeEL)EBL7001180(CKB)22894754200041(EXLCZ)992289475420004120221214d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierImagery synergetics science of cooperation /Peter J. Plath, Ernst-Christoph Haß, and Hartmut LindeCham, Switzerland :Springer,[2022]©20221 online resource (414 pages)Understanding Complex Systems Print version: Plath, Peter J. Imagery Synergetics Cham : Springer International Publishing AG,c2022 9783030956059 Includes bibliographical references and index.Intro -- Foreword -- Preface -- References -- Contents -- 1 Images from the History of Synergetics -- 1.1 Introduction -- 1.2 Historical Experiments -- 1.3 The Early Days of Synergetics [32] -- 1.3.1 Chemical Waves in the BZ Reaction -- 1.3.2 Outlook-Ongoing Problems Which Could Be Solved by Synergetics -- References -- Part I Synergetic View on Historic Experiments -- 2 The Swinging Chromium -- 2.1 Introduction -- 2.2 Historical Remarks -- 2.3 Experiments -- 2.3.1 Pure Chromium -- 2.3.2 Oscillations at the Active Passive Transition of Chromium -- 2.3.3 Oscillations at the Passive Active Phase Transition -- 2.3.4 Ostwald's Original Chromium -- 2.4 Oscillating Local Cells -- 2.5 Phenomenological Two Variable Model -- 2.6 Conclusions -- References -- 3 Liesegang Structures -- 3.1 Historical Notes -- 3.2 Walking on a Fractal Network? -- 3.3 Diffusion of the Ions or Crystal Nuclei? -- 3.4 Accelerated Diffusion-Chemical Turbulence -- 3.4.1 Processes in the Precipitation Front -- 3.5 Pattern Formation -- 3.6 Simulation -- 3.7 Twisted Scroll Waves-Much Too Early is Already Too Late -- 3.8 Agates and Other Mineralogical Liesegang Structures -- 3.9 Rhythmically Banded Sandstone -- References -- 4 Runge Pictures -- 4.1 A More Analytical Approach -- 4.2 Some Additional Measurements -- 4.3 Impregnation of Filter Paper with Water and Potassium Ferricyanine III -- 4.3.1 The First Front -- 4.3.2 Some Basics of Synergetics -- 4.4 Water Treatment of Dried Filter Paper Impregnated with Potassium Ferricyanide III -- 4.4.1 The Second Front -- 4.4.2 The Third Front -- 4.4.3 Chemical Interpretation of the Observed Colours -- 4.5 Runge Pictures-Chemical Reactions Going on in Filter Paper -- 4.5.1 Treatment of Impregnated Filter Paper First with Iron III and then with Copper Sulfate -- 4.5.2 Modifying Runge's Drop Method to Understand Its Effect on Pattern Formation.4.6 Reversal of the Order of the Solutions Penetrating into the Impregnated Filter Paper -- 4.6.1 Treatment of with Potassium Ferricyanide III Impregnated Filter Paper with Only Copper Sulfate -- 4.6.2 Treatment of with Potassium Ferricyanide III Impregnated Filter Paper First with Copper and then with Iron II Sulfate -- 4.7 Concluding Remarks -- References -- Part II Fractal Structure in Chemistry and Biology -- 5 Fractal Metal Zinc-Trees -- 5.1 Introduction -- 5.2 Experimental Arrangement and Procedure -- 5.3 Comments on the Theory -- 5.4 Experimental Estimation of Fractal Dimension of the Zinc Deposits -- 5.5 Experiments with 4 and 8 V -- 5.6 Experiment with 12 V -- 5.7 Experiment with 14 V -- References -- 6 The Fractal Character of Modified Zeolites -- 6.1 Preliminaries, Which are Worth Knowing Beforehand -- 6.2 Introduction -- 6.3 Experimental Part -- 6.3.1 Preparation of the Samples -- 6.3.2 Characterization of the Samples -- 6.4 Results -- 6.5 New Synthesis Method -- 6.6 Catalytic Behavior of CoPcX -- 6.7 Analysis of the Results -- 6.8 The Interpretation Based on Chemical Kinetics -- 6.9 An Interpretation Based on Fick's Second Law of Diffusion -- 6.10 An Iterated Function Model for the Formation of Fractals by Diffusion in Octahedral Zeolites -- 6.11 Conclusion -- References -- 7 Pattern of Sea-Shells Modelled by One-Dimensional Automata -- 7.1 Introduction -- 7.2 Historical Remarks -- 7.3 A Basic Model-Coupled Reaction Diffusion Equations -- 7.4 Mapping a Texture onto Spatial Models of Sea Shells -- 7.5 The Vector Automaton Model -- 7.6 Collision Patterns -- 7.7 Stable Collision Particles -- 7.8 Concluding Remarks -- References -- Part III Dissipative Structures -- 8 Waves Which Move Uphill -- 8.1 Introduction -- 8.2 Experimental Setup -- 8.3 Results -- 8.3.1 Phase Separation-Convective Solid.8.3.2 Phase Separation-Convective Solid-Liquid-Gas -- 8.3.3 Hot Spots as Sputtering Sources in Convective Solids -- 8.3.4 Convective Solids-Waves Moving Uphill -- 8.4 Discussion -- 8.4.1 Collective Behaviour of the Granular System -- 8.4.2 Response Behaviour of the System as a Whole -- 8.4.3 Excitation and Jerk of the Vertically Vibrating System Containing Granular Quartz -- 8.4.4 Power Spectrum of Response Function Ua(t) -- 8.4.5 Flow of Granular Quartz Beats -- 8.5 Summary and Outlook -- References -- 9 Dissipative Sculpturing of Beige Jasper of the Eastern Desert of Egypt -- 9.1 Introduction -- 9.2 Stones, Successions, Concretions and Reliefs Over a Broad Range of Sizes -- 9.2.1 An Imaginable Basis Relief -- 9.2.2 The Variability of the Relief by Deformations, Dislocations and Bounds -- 9.3 Growth of an Amorphous Body When Diffusion, Geometry and Physical-Chemical-Thermodynamic Conditions Play Together -- 9.3.1 The Grow-Stop Dynamic Due to Decreasing Shear Stress with Increasing Radius of the Nodule -- 9.3.2 The Diffusion-Controlled Accumulation Pressure Leads also to the Grow-Stop Dynamic, Which Limits the Volume Increase of the Silica Body -- 9.3.3 The Role of Heterogeneous Nucleation with Respect to the Creation of Local Leading Centers for Further Growing by Over-Layering and Fine-Sculpturing -- 9.3.4 Concentric Spheres Inside of Spherical Silica-Stones by Over-Layering Due to Facilitated and Therefore Preferential Tangential Slide-Way Expansion Along the Solidificated Surface of Their Precursor Bodies, in Short: Wall-Led Expansion -- 9.3.5 Concentric Ring-Bulges Around the "Central Disc" Due to Repeated Local Over-Layering by Facilitated Slide-Way Expansion Along the Grooves at the Border of the Central Disc and Equally at the Border of the Consecutively Step-Wise Developed Ring-Bulges, in Short: Groove-Led Expansion.9.3.6 Possible Reasons for the Increase of Variability of Concretions and Successions and Especially of the Complex Relief (Dissipative Sculpture) -- 9.3.7 Concluding Remarks -- Appendix -- References -- 10 Complex Dissipative Structures Mainly at Liquid/Liquid and Liquid/Gas Interfaces -- 10.1 Introduction -- 10.2 Dissipative Structures by Heat- and Mass-Transfer Through Liquid/Liquid and Liquid/Gas Inter-Phases Driven by Self-Organized Differences of the Surface-Tension -- References -- 11 Cooperation of Flow-Instabilities -- 11.1 Flow Instabilities with Streaks and Langmuir Circulation -- 11.2 Flow Instabilities at Small Surfaces -- 11.3 Flow Instabilities at Coated Films and Solid Sheets -- 11.4 Meniscus Instability -- 11.5 Further Examples of Flow Instabilities -- References -- 12 The Oscillatory Regime of Marangoni-Instability -- 12.1 Introduction -- 12.2 Angle Crossing and Phase Shifts -- 12.3 Rotating and Counter-Rotating Waves -- 12.4 Structures With Completely Chaotic Behavior -- References -- Part IV Structure Formation in Social Systems -- 13 Creativity-Comments to the Scientific Process -- 13.1 Introduction -- 13.1.1 Creativity in the Scientific Process -- 13.1.2 Modelling Creativity by a Lotka-Volterra Approach -- 13.2 Knowledge Reduces Problems -- 13.2.1 Natural Creativity -- 13.2.2 Autonomous Creativity -- 13.3 Classical Lotka-Volterra Model -- 13.3.1 Forced Creativity-Pulsating Creativity -- 13.3.2 Large, Free Systems-Fully Developed Creativity -- 13.4 Knowledge Enhances Problems -- 13.4.1 Restricted Creativity -- 13.4.2 Restricted Creativity with Recourse to Previous Knowledge -- 13.5 Summary and Outlook -- References -- 14 Mother Hulda and the Blue Sky Catastrophe -- 14.1 Some Introductory Remarks -- 14.2 The Great Goddess Mother Hulda-Frau Holle -- 14.3 The Spinning Meme -- 14.4 The Apple Tree Meme.14.5 The Meme of Divine Snowmaking: It Snows When Frau Holle Shakes the Feather Beds -- 14.6 The Well Meme or the Second World -- 14.7 Dynamics of the Tale -- 14.8 Reflections on the Socio-Economic Dynamics in Frau Holle's Fairy Tale -- 14.9 Cyclic Dynamic of Resources and Tools for Their Use -- 14.9.1 Inherent Information Bounded in the Tools Arise from Their Use -- 14.10 Abstract Knowledge, Freely Available Can Stabilize Unstable Systems Via Transformation Into Chaotic Ones -- 14.10.1 Paradise is the Birthplace of Science -- 14.10.2 Chaos, Hyper-Chaos and the Blue-Sky Catastrophe -- References -- Part V Kaleidoscope -- 15 The Blue Wonder -- 15.1 Introduction -- 15.2 Spatial Pattern Formation in the PA-MBO-S system -- 15.3 The Blue Wonder (MBO-G-System) and the Catalytic Memory [15] -- 15.4 Some Final Remarks -- References -- 16 Fractal Aggregation of Dictyostelium discoideum -- 16.1 Way of Life of Dictyostelium -- 16.2 The Fractal Dimension of the Aggregation of Dictyostelium discoideum -- 16.2.1 Preparation of the Samples -- 16.2.2 Observation of the Aggregation -- References -- 17 Segregation and Growth-Consecutive Kinetics of Beer Foam Decay -- 17.1 Introduction -- 17.2 Experimental Results -- 17.3 Temporal Development of Individual Bubble Size Classes -- 17.4 Kinetic Modelling By A Multi-Step Consecutive Reaction -- 17.5 Segregation and Agglomeration of Bubbles -- References -- 18 Rapakiwi Granite-An Ancient Fossilized Liesegang Experiment? -- 18.1 Segregation of a Fluid and Subsequent Ostwald Ripening -- 18.2 Transformation to a Liesegang System -- 18.3 Special Plagioclase Liesegang Patterns -- 18.4 Fixation of the Pattern by Crystallization -- 18.5 Three Dimensional Plagioclase Hems of the Alkali Feldspar Ovoides -- References.Understanding Complex Systems Self-organizing systemsSynergeticsSelf-organizing systems.Synergetics.003Plath Peter J.1235078Hass Ernst-ChristophLinde HartmutMiAaPQMiAaPQMiAaPQBOOK9910574068203321Imagery Synergetics2868877UNINA02330nam0 22003251i 450 UON0017073420231205103053.38720030707d1780 |0itac50 bafreFR||||||||| |||||||||Bibliothèque Orientale, ou Dictionnaire universel : contenant tout ce qui fait connoître les peuples de l'Orient; leurs histoires et traditions, tant fabuleuses que véritables; leurs religions & leurs sectes, leurs gouvernements, politique, loix, moeurs, coutumes, & les révolutions de leurs empires, les arts & les sciences, la théologie, médecine, mythologie, magie, physique, morale, mathématiques, histoire naturelle, chronologie, géographie ... pour servir de Supplément a celle de d'Herbelot / par messieurs C. Visdelou et A. Galand[Paris]1780iv, 284 p.42 cmTit. dell'occhiettoUON00435411UON00435411Supplément a la bibliotheque orientale de monsieu d'HerbelotCINAStoriaUONC001682FIPaesi orientaliCiviltàUONC100023FIFRParisUONL002984ARA GEN B IPAESI ARABI - BIBLIOGRAFIE - GENERALIAVisdelouClaude : deUONV0992071222305Herbelot de MolainvilleBarthélemy : d'UONV0781370721589479GallandAntoineUONV078159944824ITSOL20240220RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00170734SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI RARI ARA GEN B I 001 (2) SI MR 17696 7 001 (2) DeterioratoSHANGHAI (CINA) - STORIACINA - StoriaUONC007998Bibliothèque Orientale, ou Dictionnaire universel : contenant tout ce qui fait connoître les peuples de l'Orient; leurs histoires et traditions, tant fabuleuses que véritables; leurs religions & leurs sectes, leurs gouvernements, politique, loix, moeurs, coutumes, & les révolutions de leurs empires, les arts & les sciences, la théologie, médecine, mythologie, magie, physique, morale, mathématiques, histoire naturelle, chronologie, géographie ... pour servir de Supplément a celle de d'Herbelot3897513UNIOR