Chemical Oscillations and Instabilities

Non-linear Chemical Kinetics
Fr. 182.15
ISBN: 978-0-19-855864-4
+ -

Today, scientists in many fields are expressing considerable interest in non-linearity and the ideas of oscillations and chaos. Chemical reactions provide perfect examples of these phenomena. This book is an excellent introduction to the area of nonlinear phenomena in chemical kinetics that
involve chemical feedback such as chain branching, autocatalysis, and self-heating. The emphasis is on physical and pictorial representation, and on identifying those gross features which are essential. The experimental conditions under which such behavior will occur can be predicted using simple
mathematical recipes, and these are also included. Readers will find full discussions of long-lived oscillations for autocatalytic or exothermic reactions in closed vessels and stationary states, bistability, and oscillations in continuous flow reactors and diffusion cells. Other topics considered
include chemical wave propagation, pattern selection and formation, heterogeneous reactions, complex oscillations, quasiperiodicity, and chemical chaos, both forced and spontaneous. The second part of the book describes actual experimental systems, such as the Belousov-Zhabotinskii reaction, and
include discussion of the behavior of important gas-phase reactions. This volume is an ideal sourcebook of applied problems for graduate courses in dynamical systems, advanced chemical kinetics, and chemical reactor engineering, as well as for research workers in physical chemistry, and
mathematicians, biologists, physicists, and physiologists.

Today, scientists in many fields are expressing considerable interest in non-linearity and the ideas of oscillations and chaos. Chemical reactions provide perfect examples of these phenomena. This book is an excellent introduction to the area of nonlinear phenomena in chemical kinetics that
involve chemical feedback such as chain branching, autocatalysis, and self-heating. The emphasis is on physical and pictorial representation, and on identifying those gross features which are essential. The experimental conditions under which such behavior will occur can be predicted using simple
mathematical recipes, and these are also included. Readers will find full discussions of long-lived oscillations for autocatalytic or exothermic reactions in closed vessels and stationary states, bistability, and oscillations in continuous flow reactors and diffusion cells. Other topics considered
include chemical wave propagation, pattern selection and formation, heterogeneous reactions, complex oscillations, quasiperiodicity, and chemical chaos, both forced and spontaneous. The second part of the book describes actual experimental systems, such as the Belousov-Zhabotinskii reaction, and
include discussion of the behavior of important gas-phase reactions. This volume is an ideal sourcebook of applied problems for graduate courses in dynamical systems, advanced chemical kinetics, and chemical reactor engineering, as well as for research workers in physical chemistry, and
mathematicians, biologists, physicists, and physiologists.

Autor Gray, Peter / Scott, Stephen K.
Verlag Oxford Academic
Einband Kartonierter Einband (Kt)
Erscheinungsjahr 1994
Seitenangabe 470 S.
Lieferstatus Lieferbar in ca. 10-20 Arbeitstagen
Ausgabekennzeichen Englisch
Abbildungen numerous line figures, tables
Masse H23.3 cm x B15.5 cm x D2.8 cm 660 g
Coverlag Clarendon Press (Imprint/Brand)
Reihe International Series of Monographs on Chemistry

Über den Autor Gray, Peter

Peter Gray is a research professor in the Department of Psychology at Boston College. The author of Psychology, a highly regarded college textbook, he writes a popular blog called Freedom to Learn for Psychology Today. He lives in Shrewsbury, Massachusetts.

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