@article{bwmeta1.element.bwnjournal-article-zmv27i1p1bwm,
author = {Urszula Fory\'s},
title = {Professor Wies\l aw Szlenk (1935-1995)},
journal = {Applicationes Mathematicae},
volume = {27},
year = {2000},
pages = {1-20},
zbl = {0995.01511},
language = {en},
url = {http://dml.mathdoc.fr/item/bwmeta1.element.bwnjournal-article-zmv27i1p1bwm}
}
Foryś, Urszula. Professor Wiesław Szlenk (1935-1995). Applicationes Mathematicae, Tome 27 (2000) pp. 1-20. http://gdmltest.u-ga.fr/item/bwmeta1.element.bwnjournal-article-zmv27i1p1bwm/
[000] [1] L. Alsedà, Dynamical systems: the mathematics of Professor W. Szlenk, Butl. Soc. Catalana Mat. 12 (1997), 7-16 (in Catalan).
[001] [2] L. von Bertalanffy, Quantitative laws for metabolism and growth, Q. Rev. Biol. 32 (1957), 217-231.
[002] [3] F. Bofill, H. Gregorek, K. Madaliński and M. Syczewska, Mathematical model of antibody persistence after vaccination, in: Proceedings of the Fifth National Conference on Application of Mathematics in Biology and Medicine (Ustrzyki Górne, 1999), Univ. of Mining and Metallurgy, Kraków, 1999, 111-114.
[003] [4] F. Bofill, R. Quentallia and W. Szlenk, The Marchuk's model in the case of vaccination. Qualitative behaviour and some applications, preprint.
[004] [5] F. Bofill and W. Szlenk, A simplified model of the growth of baleen whale population, Eur. Conf. on Iteration Theory (Austria 1992).
[005] [6] A. Borkowska and W. Szlenk, Mathematical model of antibody concentration decline after vaccination, Polish Immunology 20 (1996), 117-119.
[006] [7] J. Doroszewski, J. Jakubas and H. Kowalczyńska, Adhesion of rat lymphocytes and erytrocytes to glass as examined in dynamic conditions, Bull. Acad. Polon. Sci. Sér. Sci. Biol. 9 (1973), 577-584.
[007] [8] J. Doroszewski, J. Jakubas and W. Szlenk, Mathematical model of dynamic adhesion of lymphocytes on a glass-bead column, Bull. Math. Biology 38 (1976), 659-669. | Zbl 0338.92008
[008] [9] J. Doroszewski, J. Jakubas and W. Szlenk, Mathematical description of adhesion of lymphocytes flowing through a glass bead column, Zastos. Mat. 17 (1982), 283-291. | Zbl 0531.92005
[009] [10] J. Doroszewski, K. Lewandowska and W. Szlenk, The passage of lymphatic leukemia l 1210 cells injected into glass bead labyrinth: their flow and retention, Neoplasma 26 (1979), 439-447.
[010] [11] B. Dżura, W. Hyb and W. Szlenk, On some methods of rainfall estimation, Acta Goephysica Polonica 40 (1992), 203-212.
[011] [12] Fund. Math. 157 (1998), 97-341, dedicated to the memory of Wiesław Szlenk, edited by K. Krzyżewski, M. Misiurewicz and F. Przytycki.
[012] [13] M. Gesemann and N. Scheiermann, Kinetics of hepatitis B vaccine-induced anti-HBS antibodies during an 82 month post-booster period, in: Internat. Symposium on Viral Hepatitis and Liver Diseases, Tokyo, 1993.
[013] [14] P. Grzegorczyk, F. Przytycki and W. Szlenk, On iterations of Misiurewicz's rational maps on the Riemann sphere, Ann. Inst. H. Poincaré Phys. Théor. 53 (1990), 431-444. | Zbl 0718.58031
[014] [15] K. Krzyżewski and W. Szlenk, On invariant measures for expanding differentiable mappings, Studia Math. 33 (1969), 83-92. | Zbl 0176.00901
[015] [16] G. I. Marchuk, Mathematical Modelling of Immune Response in Infectious Diseases, Kluwer, Dordrecht, 1997. | Zbl 0876.92015
[016] [17] M. Misiurewicz and W. Szlenk, Entropy of piecewise monotone mappings, Astérisque 50 (1977), 299-310. | Zbl 0376.54019
[017] [18] M. Misiurewicz and W. Szlenk, Entropy of piecewise monotone mappings, Studia Math. 67 (1980), 45-63. | Zbl 0445.54007
[018] [19] T. Nowicki, Wiesław Szlenk (1935-1995), Wiadom. Mat. 33 (1997), 204-209 (in Polish).
[019] [20] A. Pełczyński et W. Szlenk, Sur l’injection naturelle de l’espace (l) dans l’espace , Colloq. Math. 10 (1963), 313-323. | Zbl 0132.09001
[020] [21] A. Pełczyński et W. Szlenk, An example of a non-shrinking basis, Rev. Roumaine Math. Pures Appl. 10 (1965), 961-966. | Zbl 0154.14404
[021] [22] W. Szlenk, Sur les suites faiblement convergentes dans l'espace L, Studia Math. 25 (1965), 337-341. | Zbl 0131.11505
[022] [23] W. Szlenk, The non-existence of a separable reflexive Banach space universal for all separable reflexive Banach spaces, ibid. 30 (1968), 53-61. | Zbl 0169.15303
[023] [24] W. Szlenk, Rachunek prawdopodobieństwa dla klasy IV liceum ogólnokształcącego i technikum, PZWS, Warszawa, 1970 (18th edition in 1987).
[024] [25] W. Szlenk, Wstęp do teorii gładkich układów dynamicznych, PWN, Warszawa, 1982.
[025] [26] W. Szlenk, An Introduction to the Theory of Smooth Dynamical Systems, PWN, Warszawa, and Wiley, New York, 1984. | Zbl 0566.58015
[026] [27] W. Szlenk, 25 years of the Warsaw Dynamical Systems Group, Wiadom. Mat. 28 (1990), 149-152 (in Polish).
[027] [28] W. Szlenk, Mathematical model of mixing in rumen, Appl. Math. (Warsaw) 24 (1996), 87-95. | Zbl 0859.34028
[028] [29] W. Szlenk and C. Vargas, Some remarks on Marchuk's mathematical model of immune system, preprint, CINVESTAV Mexico.
[029] [30] W. Szlenk and W. Żelawski, A concept of vegetative growth and a dynamic model of dry matter accumulation in plants on an example of scots pine seedlings, Wiss. Z. Humboldt-Univ. zu Berlin, Math.-Nat. R. XXXIII 4 (1984), 359-361.
[030] [31] W. Szlenk and W. Żelawski, Vegetative growth in plants: a dynamic model, Physiol. Plant. 62 (1984), 253-259.
[031] [32] W. Szlenk and W. Żelawski, Plant growth as a dynamical system, preprint No. 7 1984/85, Matematisk Institut, Aarhus Universitet. | Zbl 0611.58031
[032] [33] W. Szlenk and W. Żelawski, Plant growth as an iteration process, in: Iteration Theory and its Functional Equations, Lecture Notes in Math. 1163, Springer, 1985, 183-195. | Zbl 0611.58031