1,2,31,2,3, some inductive real sequences and a beautiful algebraic pattern

Sarsengali Abdygalievich Abdymanapov; Serik Altynbek; Anton Begehr; Heinrich Begehr

doi:10.1515/anly-2020-0014

1,2,31,2,3, some inductive real sequences and a beautiful algebraic pattern

Analysis ◽

10.1515/anly-2020-0014 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Sarsengali Abdygalievich Abdymanapov ◽

Serik Altynbek ◽

Anton Begehr ◽

Heinrich Begehr

Keyword(s):

Computer Algebra ◽

Real Line ◽

Recurrence Relations ◽

Real Numbers ◽

The Real

Abstract By rewriting the relation 1 + 2 = 3 {1+2=3} as 1 2 + 2 2 = 3 2 {\sqrt{1}^{2}+\sqrt{2}^{2}=\sqrt{3}^{2}} , a right triangle is looked at. Some geometrical observations in connection with plane parqueting lead to an inductive sequence of right triangles with 1 2 + 2 2 = 3 2 {\sqrt{1}^{2}+\sqrt{2}^{2}=\sqrt{3}^{2}} as initial one converging to the segment [ 0 , 1 ] {[0,1]} of the real line. The sequence of their hypotenuses forms a sequence of real numbers which initiates some beautiful algebraic patterns. They are determined through some recurrence relations which are proper for being evaluated with computer algebra.

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Regularized Integral Representations of the Reciprocal Gamma Function

Fractal and Fractional ◽

10.3390/fractalfract3010001 ◽

2019 ◽

Vol 3 (1) ◽

pp. 1 ◽

Cited By ~ 3

Author(s):

Dimiter Prodanov

Keyword(s):

Integral Representation ◽

Computer Algebra ◽

Gamma Function ◽

Real Line ◽

Computer Algebra System ◽

Integral Representations ◽

Complex Representation ◽

Hypersingular Integral ◽

The Real ◽

Two Parameter

This paper establishes a real integral representation of the reciprocal Gamma function in terms of a regularized hypersingular integral along the real line. A regularized complex representation along the Hankel path is derived. The equivalence with the Heine’s complex representation is demonstrated. For both real and complex integrals, the regularized representation can be expressed in terms of the two-parameter Mittag-Leffler function. Reference numerical implementations in the Computer Algebra System Maxima are provided.

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Comparison of density topologies on the real line

Mathematica Slovaca ◽

10.1515/ms-2017-0091 ◽

2018 ◽

Vol 68 (1) ◽

pp. 173-180

Author(s):

Renata Wiertelak

Keyword(s):

Real Line ◽

Sufficient Condition ◽

Necessary And Sufficient Condition ◽

Real Numbers ◽

The Real ◽

Closed Intervals ◽

The Family ◽

Necessary And Sufficient

Abstract In this paper will be considered density-like points and density-like topology in the family of Lebesgue measurable subsets of real numbers connected with a sequence 𝓙= {Jn}n∈ℕ of closed intervals tending to zero. The main result concerns necessary and sufficient condition for inclusion between that defined topologies.

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Remarks on Quasi-Hermite-Fejér Interpolation

Canadian Mathematical Bulletin ◽

10.4153/cmb-1964-013-7 ◽

1964 ◽

Vol 7 (1) ◽

pp. 101-119 ◽

Cited By ~ 3

Author(s):

A. Sharma

Keyword(s):

Real Line ◽

Real Numbers ◽

The Real ◽

The Moment ◽

Image Position

Let1be n+2 distinct points on the real line and let us denote the corresponding real numbers, which are at the moment arbitrary, by2The problem of Hermite-Fejér interpolation is to construct the polynomials which take the values (2) at the abscissas (1) and have preassigned derivatives at these points. This idea has recently been exploited in a very interesting manner by P. Szasz [1] who has termed qua si-Hermite-Fejér interpolation to be that process wherein the derivatives are only prescribed at the points x1, x2, …, xn and the points -1, +1 are left out, while the values are prescribed at all the abscissas (1).

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Sets and Numbers

10.1093/oso/9780192844507.003.0001 ◽

2021 ◽

pp. 3-27

Author(s):

James Davidson

Keyword(s):

Set Theory ◽

Real Line ◽

Euclidean Distance ◽

Final Section ◽

Real Analysis ◽

Real Numbers ◽

The Real ◽

Basic Ideas ◽

Distance Sets

This chapter covers set theory. The topics include set algebra, relations, orderings and mappings, countability and sequences, real numbers, sequences and limits, and set classes including monotone classes, rings, fields, and sigma fields. The final section introduces the basic ideas of real analysis including Euclidean distance, sets of the real line, coverings, and compactness.

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TOPOLOGICAL FULL GROUPS OF -ALGEBRAS ARISING FROM -EXPANSIONS

Journal of the Australian Mathematical Society ◽

10.1017/s1446788714000214 ◽

2014 ◽

Vol 97 (2) ◽

pp. 257-287 ◽

Cited By ~ 1

Author(s):

KENGO MATSUMOTO ◽

HIROKI MATUI

Keyword(s):

Real Line ◽

Piecewise Linear ◽

Unit Interval ◽

Linear Functions ◽

Discrete Groups ◽

Piecewise Linear Functions ◽

Real Numbers ◽

The Real ◽

Theoretical Property ◽

Thompson Groups

AbstractWe introduce a family of infinite nonamenable discrete groups as an interpolation of the Higman–Thompson groups by using the topological full groups of the groupoids defined by $\beta $-expansions of real numbers. They are regarded as full groups of certain interpolated Cuntz algebras, and realized as groups of piecewise-linear functions on the unit interval in the real line if the $\beta $-expansion of $1$ is finite or ultimately periodic. We also classify them by a number-theoretical property of $\beta $.

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On the Total Variation of a Function

Canadian Mathematical Bulletin ◽

10.4153/cmb-1981-050-3 ◽

1981 ◽

Vol 24 (3) ◽

pp. 331-340

Author(s):

B. S. Thomson

Keyword(s):

Total Variation ◽

Arbitrary Function ◽

Real Line ◽

Real Numbers ◽

The Real ◽

Variation Of A Function

There are a number of theories which assign to a function defined on the real line a measure that reflects somehow the variation of that function. The most familiar of these is, of course, the Lebesgue-Stieltjes measure associated with any monotonie function. The problem in general is to provide a construction of a measure from a completely arbitrary function in such a way that the values of this measure provide information about the total variation of the function over sets of real numbers and from which useful inferences can be drawn.

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The Completeness of the Real Line

Crítica Revista Hispanoamericana de Filosofía ◽

10.22201/iifs.18704905e.2007.583 ◽

2007 ◽

Vol 39 (117) ◽

pp. 61-86

Author(s):

Matthew E. Moore

Keyword(s):

Real Line ◽

Geometrical Structure ◽

Real Numbers ◽

The Real ◽

Number Systems ◽

Lines In Space ◽

Scientific Hypothesis ◽

Consensus View

It is widely taken for granted that physical lines are real lines, i.e., that the arithmetical structure of the real numbers uniquely matches the geometrical structure of lines in space; and that other number systems, like Robinson’s hyperreals, accordingly fail to fit the structure of space. Intuitive justifications for the consensus view are considered and rejected. Insofar as it is justified at all, the conviction that physical lines are real lines is a scientific hypothesis which we may one day reject.

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The properties of Bessel-type fractional derivatives and integrals

JOURNAL OF ADVANCES IN PHYSICS ◽

10.24297/jap.v11i8.203 ◽

2016 ◽

pp. 3973-3982

Author(s):

V. R. Lakshmi Gorty

Keyword(s):

Fractional Order ◽

Real Line ◽

Computer Algebra System ◽

Fractional Derivatives ◽

Graphical Representation ◽

Fractional Integrals ◽

The Real ◽

Fractional Derivatives And Integrals ◽

Half Axis ◽

Derivatives Of

The fractional integrals of Bessel-type Fractional Integrals from left-sided and right-sided integrals of fractional order is established on finite and infinite interval of the real-line, half axis and real axis. The Bessel-type fractional derivatives are also established. The properties of Fractional derivatives and integrals are studied. The fractional derivatives of Bessel-type of fractional order on finite of the real-line are studied by graphical representation. Results are direct output of the computer algebra system coded from MATLAB R2011b.

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