Колебания и бегущие полны в химических системах - Филд Р.
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287. Feeney R. (1984), Experimental Studies of Macroscopic Precipitate Patterning and Chemical Wave-Electric Field Interactions. Thesis, Chemistry Department, Indiana University, Bloomington.
288. Feeney R., Ortoleva P. (1984), The Temporal Development of Liesegang Bands in (he Oxalic Acid-Gold System, to be published.
289. Feinberg M. (1980). Chemical Oscillations, Multiple Equilibria and Reaction Network Structure, in Stewart W. E., Ray W. H., and Conley С. C Eds., Dynamics and Modeling of Reactive Systems, Academic Press, New York.
290. Feinn D., Ortoleva P. (1977), Catastrophe and Propagation in Chemica! Reactions, J. Chem. Phys., 67, 2119.
291. Feinn M., Ortoleva P.. Scalf W., Schmidt S., WoIfI M. (1978), Spontaneous Pattern Formation in Precipitating Systems, j. Chem. Phvs.. 69. 27.
292. /•W(OiI P. G., Gray B. F.. Shank N. (1976), Low Temperature Oxidaiiou in a Stirred Flow Reactor, Part 2. Acetaldehyde (Theory), Combust. Flame. 27, 363.
293. Fenichel N. (1971), Persistence and Smoothness of Invariant Manifolds for Flows, Ind. Univ. Math. J., 21, 193.
294. Fessenden R. 1., Fessenden 1. S. (1979). Organic Chemistry, Willard Grant, Boston, p. 396.
295. Field R. I. (1972), A Reaction Periodic in Time and Space. A LeCtUr1 Demonstration, J. Chem. Educ, 49, 308.
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296. Field R. 1., Roros E., Noyes R. M. (1972), Oscillations in Chemical Systems, Part 2. Thorough Analysis of Temporal Oscillations in the Ce-BrO-"-Malonic Acid System, J. Am. Chem. Soc, 94, 8649.
297. Field R. !., Noyes R. M. (1974a). Oscillations in Chemical Systems. Part -! Limit Cycle Behavior in a Model of a Real Chemical Reaction. J. Chem Phys., 60, 1877.
298. Field R. 1., Noyes R. M. (1974b), Oscillations in Chemical Systems. Part 5 Quantitative. Explanation of Band Migration in the Belousov — Zhabotin skii Reaction, J. Am. Chem. Soc, 96, 2001.
299. Field R. 1., Noyes R. M. (1974c), A Model Illustrating Amplification oi Perlurbafions in an Excitable Medium. Faraday Symp. of the Chem. Soc . No. 9, Physical Chemistry of Oscillatory Phenomena, p. 21.
300. Field R. I. (1975), Limit Cycle Oscillaiions in the Reversible Oregonator. .1. Chem. Phys.. 63, 2289.
31>1. Field R. 1. (1976), Erratum: Limit Cycle Oscillaiions in the Reversihh
Oregonator, i. Chem. Phys.. 65, 1603. 302. pield R. 1., Noyes R. Al. (1977), Oscillations in Chemical Systems. Part 1?
Mechanisms of Chemical Oscillators: Conceptual Bases, Acc. Chem. Res ,
10, 211.
¦т. Field «. /• (¦^,¦«1T, VI^Xe^^c^
misiry- Pe'Siiies ? Chemistry and Biology, Vol. 4, Academic Press,
л. ?°lVDr;' VTmu IF C (1979) The: Existence of Solitary Traveling Wave M S„mL'if a Modeli ofYhc Vlousov-Zhabotinskii Reaction, SIAM J.
ш йй '«"'''"K'*""f- B""""w'¦ a ^98?-A Pulsc Hadlolysis
Investigation of the Reactions of BrOj with Fe(CN)j". Mn(II), Phenoxide Ion and Phenol, J. Phys. Chem., 86, 244.4.
306 /¦TfW R. !, Koros E., Noyes R. M. (1984), ^Oscillations in Chemical Systems Part 2. Thorough Analysis of Temporal Oscillations in the Cc-BrO3"-Malonic Acid Systems*, A Scientific and Personal History, Cnrr. Contents.
307 fileVc McLeod 1. B. (1977), The Approach of Solutions of Nonlinear ' Diffusion Equations to Traveling Front Solutions, Arch. Rat. Mcch. Anal.,
308 fife^P C (1979) Mathematical Aspects of Reacting and Diffusing Systems. Lecture Notes in Biomathcmatics, Vol. 28, Springer-Vcrlag, New York, p. 1.
309. File P. C (1980a). On Yakhno's Model for a Leading Centre, unpublished results.
3t0. fife P. C (1980b), On the Question of the Existence and Nature of Homogeneous-Center Target Patterns in the Belousov — Zhabotinskii Reagent, Proc. on Analytical and Numerical Approaches to Asymptotic Problems in Analysis, Nijmegen.
311. fife P. C (1980c), Wave Fronts and Target Patterns, in Amanii H.. Bazley N. W., and Kirchgassner K., Eds., Applications of Nonlinear Analysis in the Physical Sciences, Pitman, London, p. 206.
3t2. Fije P. C (1980d), Propagating Waves and Target Patterns in Chemical Systems, in Haken H., Ed., Dynamics of Synergetic Systems (Proc. Int. Symp. on Synergetics, Sep. 24—29, 1979), Springer-Verlag, Berlin, p. 97.
313. Findlay A.. King 0. (1913), Rate of Evolution of Gases from Supersaturated Solutions, Part 1. Influence of Colloids and of Suspensions of Charcoal on the Evolution of Carbon Dioxide, J. Chem. Soc. Trans., 103, 1170.
314. Fish A. (1966), The Non-Isothermal Oxidation of 2-Methylpentane, Part 1. The Properties of Cool Flames, Proc. Roy. Soc. A, 293, 378.
315. Fish A. (1967), The Nonisothermal Oxidation of 2-Methylpentanc, Part 2. The Chemistry of Cool Flames, Proc. Roy. Soc. A, 298, 204
316. Fish A. (1969), The Non-Isothermal Oxidation 'of Neonentane Combust. Flame, 13, 23. v
317. Fischer R. A. (1937), The Wave of Advance of Advantageous Genes Ann. Eugenics, 7, 355.
318. FitzHugh R (1961), Impulses and Physiological States in Models of Nerve Membrane, Biophys. J 1 445
Ш. r_jeld M. (1970), Report 71-52-W, The Technical Universitv of Norway, Division of Automatic Control Oslo