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Parametric and Non-Parametric Minima.

Gabriele Anzellotti (1984)

Manuscripta mathematica

Parametric extension of the Poincaré theorem

Władysław Kulpa, Lesƚaw Socha, Marian Turzański (2000)

Acta Universitatis Carolinae. Mathematica et Physica

Parametric monotone generalized equations in reflexive Banach spaces.

Domokos, A. (1997)

Mathematica Pannonica

Partial Differentiation, Differentiation and Continuity on n -Dimensional Real Normed Linear Spaces

Takao Inoué, Adam Naumowicz, Noboru Endou, Yasunari Shidama (2011)

Formalized Mathematics

In this article, we aim to prove the characterization of differentiation by means of partial differentiation for vector-valued functions on n-dimensional real normed linear spaces (refer to [15] and [16]).

Partial Differentiation of Vector-Valued Functions on n -Dimensional Real Normed Linear Spaces

Takao Inoué, Adam Naumowicz, Noboru Endou, Yasunari Shidama (2011)

Formalized Mathematics

In this article, we define and develop partial differentiation of vector-valued functions on n-dimensional real normed linear spaces (refer to [19] and [20]).

Partial regularity of minimizers of quasiconvex integrals

Mariano Giaquinta, Giuseppe Modica (1986)

Annales de l'I.H.P. Analyse non linéaire

Perron type integration on $n$ -dimensional intervals as an extension of integration of stepfunctions by strong equiconvergence

Jaroslav Kurzweil, Jiří Jarník (1996)

Czechoslovak Mathematical Journal

Perron-type integration on $n$ -dimensional intervals and its properties

Jiří Jarník, Jaroslav Kurzweil (1995)

Czechoslovak Mathematical Journal

Pettis integration

Musiał, Kazimierz (1985)

Proceedings of the 13th Winter School on Abstract Analysis

Pfeffer integrability does not imply $M_{1}$ -integrability

Jiří Jarník, Jaroslav Kurzweil (1994)

Czechoslovak Mathematical Journal

Plongements lipschitziens dans $ℝ^{n}$

Patrice Assouad (1983)

Bulletin de la Société Mathématique de France

Polynomial approximation and $ω_{ϕ}^{r} (f, t)$ twenty years later.

Ditzian, Z. (2007)

Surveys in Approximation Theory (SAT)[electronic only]

Polynomials and degrees of maps in real normed algebras

Takis Sakkalis (2020)

Communications in Mathematics

Let $𝒜$ be the algebra of quaternions $ℍ$ or octonions $𝕆$ . In this manuscript an elementary proof is given, based on ideas of Cauchy and D’Alembert, of the fact that an ordinary polynomial $f (t) \in 𝒜 [t]$ has a root in $𝒜$ . As a consequence, the Jacobian determinant $| J (f) |$ is always non-negative in $𝒜$ . Moreover, using the idea of the topological degree we show that a regular polynomial $g (t)$ over $𝒜$ has also a root in $𝒜$ . Finally, utilizing multiplication ( $*$ ) in $𝒜$ , we prove various results on the topological degree of products...

Positively homogeneous functions and the Łojasiewicz gradient inequality

Alain Haraux (2005)

Annales Polonici Mathematici

It is quite natural to conjecture that a positively homogeneous function with degree d ≥ 2 on $ℝ^{N}$ satisfies the Łojasiewicz gradient inequality with exponent θ = 1/d without any need for an analyticity assumption. We show that this property is true under some additional hypotheses, but not always, even for N = 2.

Preparation theorems for matrix valued functions

Nils Dencker (1993)

Annales de l'institut Fourier

We generalize the Malgrange preparation theorem to matrix valued functions $F (t, x) \in C^{\infty} (R \times R^{n})$ satisfying the condition that $t \mapsto \det F (t, 0)$ vanishes to finite order at $t = 0$ . Then we can factor $F (t, x) = C (t, x) P (t, x)$ near (0,0), where $C (t, x) \in C^{\infty}$ is inversible and $P (t, x)$ is polynomial function of $t$ depending $C^{\infty}$ on $x$ . The preparation is (essentially) unique, up to functions vanishing to infinite order at $x = 0$ , if we impose some additional conditions on $P (t, x)$ . We also have a generalization of the division theorem, and analytic versions generalizing the Weierstrass preparation...

Preparation theorems for systems

Nils Dencker (1990)

Journées équations aux dérivées partielles

Příklad k jednomu obrácení Greenovy věty

Josef Král (1976)

Časopis pro pěstování matematiky

Products and projective limits of function spaces

Miroslav Kačena (2008)

Commentationes Mathematicae Universitatis Carolinae

We introduce a notion of a product and projective limit of function spaces. We show that the Choquet boundary of the product space is the product of Choquet boundaries. Next we show that the product of simplicial spaces is simplicial. We also show that the maximal measures on the product space are exactly those with maximal projections. We show similar characterizations of the Choquet boundary and the space of maximal measures for the projective limit of function spaces under some additional assumptions...

Projectively Solid Sets and an N-dimensional Piccard's Theorem

Lindgren, W., Szymanski, A. (1998)

Serdica Mathematical Journal

We discuss functions f : X × Y → Z such that sets of the form f (A × B) have non-empty interiors provided that A and B are non-empty sets of second category and have the Baire property.

Properties of $C^{1}$ -smooth mappings with one-dimensional gradient range.

Korobkov, M.V. (2009)

Sibirskij Matematicheskij Zhurnal

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