Verfügbarkeit: Structured fluids :

Structured fluids :: polymers, culloids, surfactants /

Over the last thirty years, the study of liquids containing polymers, surfactants, or colloidal particles has developed from a loose assembly of facts into a coherent discipline with substantial predictive power. These liquids expand our conception of what condensed matter can do. Such structured-fl...

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Bibliographische Detailangaben
1. Verfasser:	Witten, T. (Thomas A.)
Weitere Verfasser:	Pincus, P. A.
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Oxford : Oxford University Press, 2010.
Schlagworte:	Complex fluids. Polymer colloids. Fluides complexes. Colloïdes polymères. SCIENCE > Physics > General. SCIENCE > Mechanics > General. SCIENCE > Energy. Complex fluids Polymer colloids Grenzflächenaktiver Stoff Kolloid Polymerlösung Weiche Materie Electronic book.
Online-Zugang:	Volltext
Zusammenfassung:	Over the last thirty years, the study of liquids containing polymers, surfactants, or colloidal particles has developed from a loose assembly of facts into a coherent discipline with substantial predictive power. These liquids expand our conception of what condensed matter can do. Such structured-fluid phenomena dominate the physical environment within living cells. This book teaches how to think of these fluids from a unified point of view showing the far-reaching effects ofthermal fluctuations in producing forces and motions. Keeping mathematics to a minimum, the book seeks the simplest expl.
Beschreibung:	Originally published: 2004.
Beschreibung:	1 online resource (xiv, 216 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9780191576928 0191576921 9781523121298 1523121297

Internformat

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245	1	0	\|a Structured fluids : \|b polymers, culloids, surfactants / \|c Thomas A. Witten, Philip A. Pincus.
260			\|a Oxford : \|b Oxford University Press, \|c 2010.
300			\|a 1 online resource (xiv, 216 pages) : \|b illustrations
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500			\|a Originally published: 2004.
504			\|a Includes bibliographical references and index.
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505	0		\|a 1 Overview; 1.1 Introduction; 1.2 A gallery of structured fluids; 1.2.1 Self-organization; 1.2.2 Rheology; 1.2.3 Scaling; 1.3 Types of structured fluids; 1.3.1 Colloids; 1.3.2 Aggregates; 1.3.3 Polymers; 1.3.4 Surfactant assemblies; 1.3.5 Association; 1.4 The chapters to follow; References; 2 Fundamentals; 2.1 Statistical physics; 2.1.1 Thermal equilibrium; 2.1.2 Probability and work; 2.1.3 Lattice gas; 2.1.4 Approach to equilibrium; 2.2 Magnitude of a liquid's response; 2.3 Experimental probes of structured fluids; 2.3.1 Macroscopic responses; 2.3.2 Probes of spatial structure
505	8		\|a 2.3.3 Probes of atomic environmentSolution to Problem 2.1; References; 3 Polymer molecules; 3.1 Types of polymers; 3.1.1 Monomers; 3.1.2 Architecture; 3.1.3 Polymerization; 3.2 Random-walk polymer; 3.2.1 End-to-end probability; 3.3 Interior structure; 3.3.1 Scattering; 3.4 Self-avoidance and self-interaction; 3.4.1 Local and global avoidance; 3.4.2 Estimating D; 3.4.3 Self-interaction and solvent quality; 3.4.4 Universal ratios; 3.4.5 Polyelectrolytes; Appendix A: Dilation symmetry; Appendix B: Polymeric solvents and screening; References; 4 Polymer solutions; 4.1 Dilute solutions
505	8		\|a 4.2 Semidilute solutions4.2.1 Structure; 4.2.2 Energy; 4.2.3 Concentrated solutions and melts; 4.3 Motion in a polymer solution; 4.3.1 Brownian motion of a sphere; 4.3.2 Intrinsic viscosity; 4.3.3 Polymer in dilute solution: hydrodynamic opacity; 4.3.4 Internal fluctuations; 4.3.5 Hydrodynamic screening; 4.3.6 Semidilute diffusion; 4.3.7 Semidilute self-diffusion without entanglement; 4.3.8 Motion with entanglements; 4.3.9 Stress relaxation and viscosity; 4.4 Conclusion; Appendix A: Origin of the Oseen tensor; Solution to Problem 4.5 (Deriving permeability); References; 5 Colloids
505	8		\|a 5.1 Attractive forces: why colloids are sticky5.1.1 Induced-dipole interactions; 5.1.2 Solid bodies; 5.1.3 Perturbation-Attraction Theorem; 5.1.4 Depletion forces; 5.2 Repulsive forces; 5.2.1 Steric stabilization; 5.2.2 Electrostatic stabilization; 5.3 Organized states; 5.3.1 Colloidal crystals; 5.3.2 Lyotropic liquid crystals; 5.3.3 Fractal aggregates; 5.3.4 Anisotropic interactions; 5.4 Colloidal motion; 5.4.1 Electrophoresis; 5.4.2 Soret effect; Appendix A: Perturbation attraction in a square-gradient medium; Appendix B: Colloidal aggregates; References; 6 Interfaces
505	8		\|a 6.1 Probes of an interface6.2 Simple fluids; 6.2.1 Interfacial energy; 6.2.2 Contact angle; 6.2.3 Wetting dynamics; 6.2.4 Surface heterogeneity; 6.2.5 Other interfacial flows; 6.3 Solutes and interfacial tension; 6.3.1 Fluid mixtures; 6.4 Polyatomic solutes; 6.4.1 Polymer adsorption; 6.4.2 Concentration profile; 6.4.3 Hard wall; 6.4.4 Kinetics of adsorption; 6.4.5 Surface interaction; 6.4.6 Flow; 6.5 Conclusion; References; 7 Surfactants; 7.1 Introduction; 7.2 Mixing principles; 7.2.1 Positivity; 7.2.2 Additivity; 7.2.3 Ordering: like dissolves like; 7.2.4 Reciprocity; 7.2.5 Transitivity
520			\|a Over the last thirty years, the study of liquids containing polymers, surfactants, or colloidal particles has developed from a loose assembly of facts into a coherent discipline with substantial predictive power. These liquids expand our conception of what condensed matter can do. Such structured-fluid phenomena dominate the physical environment within living cells. This book teaches how to think of these fluids from a unified point of view showing the far-reaching effects ofthermal fluctuations in producing forces and motions. Keeping mathematics to a minimum, the book seeks the simplest expl.
650		0	\|a Complex fluids. \|0 http://id.loc.gov/authorities/subjects/sh98002268
650		0	\|a Polymer colloids. \|0 http://id.loc.gov/authorities/subjects/sh89006264
650		6	\|a Fluides complexes.
650		6	\|a Colloïdes polymères.
650		7	\|a SCIENCE \|x Physics \|x General. \|2 bisacsh
650		7	\|a SCIENCE \|x Mechanics \|x General. \|2 bisacsh
650		7	\|a SCIENCE \|x Energy. \|2 bisacsh
650		7	\|a Complex fluids \|2 fast
650		7	\|a Polymer colloids \|2 fast
650		7	\|a Grenzflächenaktiver Stoff \|2 gnd \|0 http://d-nb.info/gnd/4158138-6
650		7	\|a Kolloid \|2 gnd \|0 http://d-nb.info/gnd/4164695-2
650		7	\|a Polymerlösung \|2 gnd \|0 http://d-nb.info/gnd/4175242-9
650		7	\|a Weiche Materie \|2 gnd \|0 http://d-nb.info/gnd/4609142-7
655		4	\|a Electronic book.
700	1		\|a Pincus, P. A.
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776	0	8	\|i Print version: \|a Witten, T. (Thomas A.). \|t Structured fluids. \|d Oxford : Oxford University Press, 2010 \|z 9780199583829 \|w (OCoLC)463634778
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contents	1 Overview; 1.1 Introduction; 1.2 A gallery of structured fluids; 1.2.1 Self-organization; 1.2.2 Rheology; 1.2.3 Scaling; 1.3 Types of structured fluids; 1.3.1 Colloids; 1.3.2 Aggregates; 1.3.3 Polymers; 1.3.4 Surfactant assemblies; 1.3.5 Association; 1.4 The chapters to follow; References; 2 Fundamentals; 2.1 Statistical physics; 2.1.1 Thermal equilibrium; 2.1.2 Probability and work; 2.1.3 Lattice gas; 2.1.4 Approach to equilibrium; 2.2 Magnitude of a liquid's response; 2.3 Experimental probes of structured fluids; 2.3.1 Macroscopic responses; 2.3.2 Probes of spatial structure 2.3.3 Probes of atomic environmentSolution to Problem 2.1; References; 3 Polymer molecules; 3.1 Types of polymers; 3.1.1 Monomers; 3.1.2 Architecture; 3.1.3 Polymerization; 3.2 Random-walk polymer; 3.2.1 End-to-end probability; 3.3 Interior structure; 3.3.1 Scattering; 3.4 Self-avoidance and self-interaction; 3.4.1 Local and global avoidance; 3.4.2 Estimating D; 3.4.3 Self-interaction and solvent quality; 3.4.4 Universal ratios; 3.4.5 Polyelectrolytes; Appendix A: Dilation symmetry; Appendix B: Polymeric solvents and screening; References; 4 Polymer solutions; 4.1 Dilute solutions 4.2 Semidilute solutions4.2.1 Structure; 4.2.2 Energy; 4.2.3 Concentrated solutions and melts; 4.3 Motion in a polymer solution; 4.3.1 Brownian motion of a sphere; 4.3.2 Intrinsic viscosity; 4.3.3 Polymer in dilute solution: hydrodynamic opacity; 4.3.4 Internal fluctuations; 4.3.5 Hydrodynamic screening; 4.3.6 Semidilute diffusion; 4.3.7 Semidilute self-diffusion without entanglement; 4.3.8 Motion with entanglements; 4.3.9 Stress relaxation and viscosity; 4.4 Conclusion; Appendix A: Origin of the Oseen tensor; Solution to Problem 4.5 (Deriving permeability); References; 5 Colloids 5.1 Attractive forces: why colloids are sticky5.1.1 Induced-dipole interactions; 5.1.2 Solid bodies; 5.1.3 Perturbation-Attraction Theorem; 5.1.4 Depletion forces; 5.2 Repulsive forces; 5.2.1 Steric stabilization; 5.2.2 Electrostatic stabilization; 5.3 Organized states; 5.3.1 Colloidal crystals; 5.3.2 Lyotropic liquid crystals; 5.3.3 Fractal aggregates; 5.3.4 Anisotropic interactions; 5.4 Colloidal motion; 5.4.1 Electrophoresis; 5.4.2 Soret effect; Appendix A: Perturbation attraction in a square-gradient medium; Appendix B: Colloidal aggregates; References; 6 Interfaces 6.1 Probes of an interface6.2 Simple fluids; 6.2.1 Interfacial energy; 6.2.2 Contact angle; 6.2.3 Wetting dynamics; 6.2.4 Surface heterogeneity; 6.2.5 Other interfacial flows; 6.3 Solutes and interfacial tension; 6.3.1 Fluid mixtures; 6.4 Polyatomic solutes; 6.4.1 Polymer adsorption; 6.4.2 Concentration profile; 6.4.3 Hard wall; 6.4.4 Kinetics of adsorption; 6.4.5 Surface interaction; 6.4.6 Flow; 6.5 Conclusion; References; 7 Surfactants; 7.1 Introduction; 7.2 Mixing principles; 7.2.1 Positivity; 7.2.2 Additivity; 7.2.3 Ordering: like dissolves like; 7.2.4 Reciprocity; 7.2.5 Transitivity
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spelling	Witten, T. (Thomas A.) http://id.loc.gov/authorities/names/nb2003097374 Structured fluids : polymers, culloids, surfactants / Thomas A. Witten, Philip A. Pincus. Oxford : Oxford University Press, 2010. 1 online resource (xiv, 216 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Originally published: 2004. Includes bibliographical references and index. Print version record. 1 Overview; 1.1 Introduction; 1.2 A gallery of structured fluids; 1.2.1 Self-organization; 1.2.2 Rheology; 1.2.3 Scaling; 1.3 Types of structured fluids; 1.3.1 Colloids; 1.3.2 Aggregates; 1.3.3 Polymers; 1.3.4 Surfactant assemblies; 1.3.5 Association; 1.4 The chapters to follow; References; 2 Fundamentals; 2.1 Statistical physics; 2.1.1 Thermal equilibrium; 2.1.2 Probability and work; 2.1.3 Lattice gas; 2.1.4 Approach to equilibrium; 2.2 Magnitude of a liquid's response; 2.3 Experimental probes of structured fluids; 2.3.1 Macroscopic responses; 2.3.2 Probes of spatial structure 2.3.3 Probes of atomic environmentSolution to Problem 2.1; References; 3 Polymer molecules; 3.1 Types of polymers; 3.1.1 Monomers; 3.1.2 Architecture; 3.1.3 Polymerization; 3.2 Random-walk polymer; 3.2.1 End-to-end probability; 3.3 Interior structure; 3.3.1 Scattering; 3.4 Self-avoidance and self-interaction; 3.4.1 Local and global avoidance; 3.4.2 Estimating D; 3.4.3 Self-interaction and solvent quality; 3.4.4 Universal ratios; 3.4.5 Polyelectrolytes; Appendix A: Dilation symmetry; Appendix B: Polymeric solvents and screening; References; 4 Polymer solutions; 4.1 Dilute solutions 4.2 Semidilute solutions4.2.1 Structure; 4.2.2 Energy; 4.2.3 Concentrated solutions and melts; 4.3 Motion in a polymer solution; 4.3.1 Brownian motion of a sphere; 4.3.2 Intrinsic viscosity; 4.3.3 Polymer in dilute solution: hydrodynamic opacity; 4.3.4 Internal fluctuations; 4.3.5 Hydrodynamic screening; 4.3.6 Semidilute diffusion; 4.3.7 Semidilute self-diffusion without entanglement; 4.3.8 Motion with entanglements; 4.3.9 Stress relaxation and viscosity; 4.4 Conclusion; Appendix A: Origin of the Oseen tensor; Solution to Problem 4.5 (Deriving permeability); References; 5 Colloids 5.1 Attractive forces: why colloids are sticky5.1.1 Induced-dipole interactions; 5.1.2 Solid bodies; 5.1.3 Perturbation-Attraction Theorem; 5.1.4 Depletion forces; 5.2 Repulsive forces; 5.2.1 Steric stabilization; 5.2.2 Electrostatic stabilization; 5.3 Organized states; 5.3.1 Colloidal crystals; 5.3.2 Lyotropic liquid crystals; 5.3.3 Fractal aggregates; 5.3.4 Anisotropic interactions; 5.4 Colloidal motion; 5.4.1 Electrophoresis; 5.4.2 Soret effect; Appendix A: Perturbation attraction in a square-gradient medium; Appendix B: Colloidal aggregates; References; 6 Interfaces 6.1 Probes of an interface6.2 Simple fluids; 6.2.1 Interfacial energy; 6.2.2 Contact angle; 6.2.3 Wetting dynamics; 6.2.4 Surface heterogeneity; 6.2.5 Other interfacial flows; 6.3 Solutes and interfacial tension; 6.3.1 Fluid mixtures; 6.4 Polyatomic solutes; 6.4.1 Polymer adsorption; 6.4.2 Concentration profile; 6.4.3 Hard wall; 6.4.4 Kinetics of adsorption; 6.4.5 Surface interaction; 6.4.6 Flow; 6.5 Conclusion; References; 7 Surfactants; 7.1 Introduction; 7.2 Mixing principles; 7.2.1 Positivity; 7.2.2 Additivity; 7.2.3 Ordering: like dissolves like; 7.2.4 Reciprocity; 7.2.5 Transitivity Over the last thirty years, the study of liquids containing polymers, surfactants, or colloidal particles has developed from a loose assembly of facts into a coherent discipline with substantial predictive power. These liquids expand our conception of what condensed matter can do. Such structured-fluid phenomena dominate the physical environment within living cells. This book teaches how to think of these fluids from a unified point of view showing the far-reaching effects ofthermal fluctuations in producing forces and motions. Keeping mathematics to a minimum, the book seeks the simplest expl. Complex fluids. http://id.loc.gov/authorities/subjects/sh98002268 Polymer colloids. http://id.loc.gov/authorities/subjects/sh89006264 Fluides complexes. Colloïdes polymères. SCIENCE Physics General. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Energy. bisacsh Complex fluids fast Polymer colloids fast Grenzflächenaktiver Stoff gnd http://d-nb.info/gnd/4158138-6 Kolloid gnd http://d-nb.info/gnd/4164695-2 Polymerlösung gnd http://d-nb.info/gnd/4175242-9 Weiche Materie gnd http://d-nb.info/gnd/4609142-7 Electronic book. Pincus, P. A. has work: Structured fluids (Text) https://id.oclc.org/worldcat/entity/E39PCGFRb9rfcd7ykXTKwjy7jK https://id.oclc.org/worldcat/ontology/hasWork Print version: Witten, T. (Thomas A.). Structured fluids. Oxford : Oxford University Press, 2010 9780199583829 (OCoLC)463634778 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=330476 Volltext
spellingShingle	Witten, T. (Thomas A.) Structured fluids : polymers, culloids, surfactants / 1 Overview; 1.1 Introduction; 1.2 A gallery of structured fluids; 1.2.1 Self-organization; 1.2.2 Rheology; 1.2.3 Scaling; 1.3 Types of structured fluids; 1.3.1 Colloids; 1.3.2 Aggregates; 1.3.3 Polymers; 1.3.4 Surfactant assemblies; 1.3.5 Association; 1.4 The chapters to follow; References; 2 Fundamentals; 2.1 Statistical physics; 2.1.1 Thermal equilibrium; 2.1.2 Probability and work; 2.1.3 Lattice gas; 2.1.4 Approach to equilibrium; 2.2 Magnitude of a liquid's response; 2.3 Experimental probes of structured fluids; 2.3.1 Macroscopic responses; 2.3.2 Probes of spatial structure 2.3.3 Probes of atomic environmentSolution to Problem 2.1; References; 3 Polymer molecules; 3.1 Types of polymers; 3.1.1 Monomers; 3.1.2 Architecture; 3.1.3 Polymerization; 3.2 Random-walk polymer; 3.2.1 End-to-end probability; 3.3 Interior structure; 3.3.1 Scattering; 3.4 Self-avoidance and self-interaction; 3.4.1 Local and global avoidance; 3.4.2 Estimating D; 3.4.3 Self-interaction and solvent quality; 3.4.4 Universal ratios; 3.4.5 Polyelectrolytes; Appendix A: Dilation symmetry; Appendix B: Polymeric solvents and screening; References; 4 Polymer solutions; 4.1 Dilute solutions 4.2 Semidilute solutions4.2.1 Structure; 4.2.2 Energy; 4.2.3 Concentrated solutions and melts; 4.3 Motion in a polymer solution; 4.3.1 Brownian motion of a sphere; 4.3.2 Intrinsic viscosity; 4.3.3 Polymer in dilute solution: hydrodynamic opacity; 4.3.4 Internal fluctuations; 4.3.5 Hydrodynamic screening; 4.3.6 Semidilute diffusion; 4.3.7 Semidilute self-diffusion without entanglement; 4.3.8 Motion with entanglements; 4.3.9 Stress relaxation and viscosity; 4.4 Conclusion; Appendix A: Origin of the Oseen tensor; Solution to Problem 4.5 (Deriving permeability); References; 5 Colloids 5.1 Attractive forces: why colloids are sticky5.1.1 Induced-dipole interactions; 5.1.2 Solid bodies; 5.1.3 Perturbation-Attraction Theorem; 5.1.4 Depletion forces; 5.2 Repulsive forces; 5.2.1 Steric stabilization; 5.2.2 Electrostatic stabilization; 5.3 Organized states; 5.3.1 Colloidal crystals; 5.3.2 Lyotropic liquid crystals; 5.3.3 Fractal aggregates; 5.3.4 Anisotropic interactions; 5.4 Colloidal motion; 5.4.1 Electrophoresis; 5.4.2 Soret effect; Appendix A: Perturbation attraction in a square-gradient medium; Appendix B: Colloidal aggregates; References; 6 Interfaces 6.1 Probes of an interface6.2 Simple fluids; 6.2.1 Interfacial energy; 6.2.2 Contact angle; 6.2.3 Wetting dynamics; 6.2.4 Surface heterogeneity; 6.2.5 Other interfacial flows; 6.3 Solutes and interfacial tension; 6.3.1 Fluid mixtures; 6.4 Polyatomic solutes; 6.4.1 Polymer adsorption; 6.4.2 Concentration profile; 6.4.3 Hard wall; 6.4.4 Kinetics of adsorption; 6.4.5 Surface interaction; 6.4.6 Flow; 6.5 Conclusion; References; 7 Surfactants; 7.1 Introduction; 7.2 Mixing principles; 7.2.1 Positivity; 7.2.2 Additivity; 7.2.3 Ordering: like dissolves like; 7.2.4 Reciprocity; 7.2.5 Transitivity Complex fluids. http://id.loc.gov/authorities/subjects/sh98002268 Polymer colloids. http://id.loc.gov/authorities/subjects/sh89006264 Fluides complexes. Colloïdes polymères. SCIENCE Physics General. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Energy. bisacsh Complex fluids fast Polymer colloids fast Grenzflächenaktiver Stoff gnd http://d-nb.info/gnd/4158138-6 Kolloid gnd http://d-nb.info/gnd/4164695-2 Polymerlösung gnd http://d-nb.info/gnd/4175242-9 Weiche Materie gnd http://d-nb.info/gnd/4609142-7
subject_GND	http://id.loc.gov/authorities/subjects/sh98002268 http://id.loc.gov/authorities/subjects/sh89006264 http://d-nb.info/gnd/4158138-6 http://d-nb.info/gnd/4164695-2 http://d-nb.info/gnd/4175242-9 http://d-nb.info/gnd/4609142-7
title	Structured fluids : polymers, culloids, surfactants /
title_auth	Structured fluids : polymers, culloids, surfactants /
title_exact_search	Structured fluids : polymers, culloids, surfactants /
title_full	Structured fluids : polymers, culloids, surfactants / Thomas A. Witten, Philip A. Pincus.
title_fullStr	Structured fluids : polymers, culloids, surfactants / Thomas A. Witten, Philip A. Pincus.
title_full_unstemmed	Structured fluids : polymers, culloids, surfactants / Thomas A. Witten, Philip A. Pincus.
title_short	Structured fluids :
title_sort	structured fluids polymers culloids surfactants
title_sub	polymers, culloids, surfactants /
topic	Complex fluids. http://id.loc.gov/authorities/subjects/sh98002268 Polymer colloids. http://id.loc.gov/authorities/subjects/sh89006264 Fluides complexes. Colloïdes polymères. SCIENCE Physics General. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Energy. bisacsh Complex fluids fast Polymer colloids fast Grenzflächenaktiver Stoff gnd http://d-nb.info/gnd/4158138-6 Kolloid gnd http://d-nb.info/gnd/4164695-2 Polymerlösung gnd http://d-nb.info/gnd/4175242-9 Weiche Materie gnd http://d-nb.info/gnd/4609142-7
topic_facet	Complex fluids. Polymer colloids. Fluides complexes. Colloïdes polymères. SCIENCE Physics General. SCIENCE Mechanics General. SCIENCE Energy. Complex fluids Polymer colloids Grenzflächenaktiver Stoff Kolloid Polymerlösung Weiche Materie Electronic book.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=330476
work_keys_str_mv	AT wittent structuredfluidspolymersculloidssurfactants AT pincuspa structuredfluidspolymersculloidssurfactants

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