A method for obtaining third-order iterative formulas.
Herceg, Djordje, Herceg, Dragoslav (2008)
Novi Sad Journal of Mathematics
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Herceg, Djordje, Herceg, Dragoslav (2008)
Novi Sad Journal of Mathematics
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A. H. Osbaldestin, P. Shiu (1991)
Publications de l'Institut Mathématique
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Z. Kowalski (1963)
Annales Polonici Mathematici
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W. Solak (1971)
Annales Polonici Mathematici
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B. Jovanović (1972)
Matematički Vesnik
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Paweł Solarz (2012)
ESAIM: Proceedings
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We show that the theorem proved in [8] generalises the previous results concerning orientation-preserving iterative roots of homeomorphisms of the circle with a rational rotation number (see [2], [6], [10] and [7]).
B. Jovanović (1972)
Matematički Vesnik
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Douglas James, Robert J. Plemmons (1990)
Numerische Mathematik
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Jean-Claude Ndogmo, Fazal Mahomed (2014)
Open Mathematics
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An expression for the coefficients of a linear iterative equation in terms of the parameters of the source equation is given both for equations in standard form and for equations in reduced normal form. The operator that generates an iterative equation of a general order in reduced normal form is also obtained and some other properties of iterative equations are established. An expression for the parameters of the source equation of the transformed equation under equivalence transformations...
D.J. Rose, P.J. Lanzkron, D.B. Szyld (1990/91)
Numerische Mathematik
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N. Levenberg, L. Reichel (1993/94)
Numerische Mathematik
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Weinian Zhang (1997)
Annales Polonici Mathematici
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The concept of characteristic interval for piecewise monotone functions is introduced and used in the study of their iterative roots on a closed interval.