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Very Slowly Varying Functions.

P. Erdös, J. Marshall Ash, L.A. Rubel (1974)

Aequationes mathematicae

Very slowly varying functions. II

N. H. Bingham, A. J. Ostaszewski (2009)

Colloquium Mathematicae

This paper is a sequel to papers by Ash, Erdős and Rubel, on very slowly varying functions, and by Bingham and Ostaszewski, on foundations of regular variation. We show that generalizations of the Ash-Erdős-Rubel approach-imposing growth restrictions on the function h, rather than regularity conditions such as measurability or the Baire property-lead naturally to the main result of regular variation, the Uniform Convergence Theorem.

Věta o supremu a věty s ní ekvivalentní

František Nožička (1951)

Časopis pro pěstování matematiky

Visualisation of the electromagnetic vector fields

Bartoň, Stanislav (2023)

Programs and Algorithms of Numerical Mathematics

Modern computer algebra software can be used to visualize vector fields. One of the most used is the Maple program. This program is used to visualize two and three-dimensional vector fields. The possibilities of plotting direction vectors, lines of force, equipotential curves and the method of colouring the surface area for two-dimensional cases are shown step by step. For three-dimensional arrays, these methods are applied to various slices of three-dimensional space, such as a plane or a cylindrical...

Vitali Lemma approach to differentiation on a time scale

Chuan Jen Chyan, Andrzej Fryszkowski (2004)

Studia Mathematica

A new approach to differentiation on a time scale is presented. We give a suitable generalization of the Vitali Lemma and apply it to prove that every increasing function f: → ℝ has a right derivative f₊’(x) for $μ_{Δ}$ -almost all x ∈ . Moreover, $\int_{[a, b)} f ₊^{'} (x) d μ_{Δ} \leq f (b) - f (a)$ .

Volterra discrete inequalities of Bernoulli type.

Choi, Sung Kyu, Koo, Namjip (2010)

Journal of Inequalities and Applications [electronic only]

Volterra equations with fractional stochastic integrals.

El-Borai, Mahmoud M., El-Nadi, Khairia El-Said, Mostafa, Osama L., Ahmed, Hamdy M. (2004)

Mathematical Problems in Engineering

Volterra integral equations governed by highly oscillatory functions on the time scale.

Satco, Bianca (2009)

Analele Ştiinţifice ale Universităţii “Ovidius" Constanţa. Seria: Matematică

Volterra integral inclusions via Henstock-Kurzweil-Pettis integral

Bianca Satco (2006)

Discussiones Mathematicae, Differential Inclusions, Control and Optimization

In this paper, we prove the existence of continuous solutions of a Volterra integral inclusion involving the Henstock-Kurzweil-Pettis integral. Since this kind of integral is more general than the Bochner, Pettis and Henstock integrals, our result extends many of the results previously obtained in the single-valued setting or in the set-valued case.

Volume of an N-Simplex by multiple Integration.

Richard S. Ellis (1976)

Elemente der Mathematik

Von Neumann's paradox with translations

Miklós Laczkovich (1988)

Fundamenta Mathematicae

Displaying 21 – 31 of 31

Currently displaying 21 – 31 of 31