Über das Summierungsverfahren von Le Roy

Tietz, Hubert,

January 1966

Thesis--Technischen Hochschule, Stuttgart. / Vita. Includes bibliographical references (p. 87-90).

Divergent series.

Some theorems on the summation of divergent series

James, Glenn,

January 1917

Thesis (Ph. D.)--Columbia University, 1918. / Vita. Includes bibliographical references (p. 27).

Divergent series.

Sommeeren van divergeerende reeksen

Deinema, Gerrit.

January 1918

Proefschrift--Groningen. / "Stellingen": 3 p. at end. Bibliographical foot-notes.

Divergent series.

Summation Methods for Divergent Series

O'Neill, James M.

08 1900

Some of the properties of the specific summation methods will be investigated, such as what type of divergent series a method can or cannot sum, if the insertion of zeros into a series does change the sum, and when different methods give the same sum for a series.

summation methods

divergent series

Error analysis, convergence, divergence, and the acceleration of convergence /

Tucker, Richard Ray.

January 1963

Thesis (Ph. D.)--Oregon State University, 1963. / Typescript. Includes bibliographical references (leaves 180-182). Also available on the World Wide Web.

Convergence. Divergent series.

Eine neue Verallgemeinerung der Borelschen Summabilitätstheorie der divergenten Reihen

Doetsch, Gustav,

January 1920

Thesis (doctoral)--Georg-August-Universität zu Göttingen, 1920. / Vita. Includes bibliographical references (p. [53]-54).

Divergent series. Summability theory.

The summability of infinite series

Unknown Date

"The purpose of this paper is to study methods by which a value can be assigned to an infinite series. The reason for studying about these methods lies in the fact that infinite series often appear as the end result of a calculation or computation. A desire to obtain a usable end result leads us to the investigation of methods for evaluating infinite series"--Introduction. / "August, 1955." / Typescript. / Advisor: Howard E. Taylor, Professor Directing Paper. / "Submitted to the Graduate Council of Florida State University in partial fulfillment of the requirements for the degree of Master of Science." / Includes bibliographical references (leaf 40).

Divergent series

Series, Infinite

Summability theory

Tomorrow’s Heroines Fighting Today’s Demons: Dystopia in The Hunger Games and Divergent Series

Unknown Date

Through a close analysis of Suzanne Collins’ Hunger Games series and Veronica Roth’s Divergent series, it will be shown that these two-current young adult dystopian book-film crossovers pose several relevant parallels to contemporary real-world problems. By deciphering a pattern on what garners their popularity, and most importantly analyzing the aspect of why they reached such levels of recognition, we can then begin to close in on just how important these two series are in representing the 21st century young American mindset. Taking into the equation also, how the overall-arching genre of dystopia has evolved with the times and has now adapted to reflect contemporary anxieties and fears. Looking into several elements such as a newfound desire for strong female roles, persuasive antagonists that are inspired by realistic historical precedents, and an unsettling desensitization towards violence and gore, we can then see that the successful equation of The Hunger Games and Divergent series reflects mainstream interests evocatively and effectively. It is not just an intervention into the encompassing utopian/dystopian tradition, but into today’s sociology. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection

Collins, Suzanne Hunger Games (Series)

Roth, Veronica Divergent series

Dystopias

The use of divergent series in history

Birca, Alina

01 January 2004

In this thesis the author presents a history of non-convergent series which, in the past, played an important role in mathematics. Euler's formula, Stirling's series and Poincare's theory are examined to show the development of asymptotic series, a subdivision of divergent series.

Leonhard Euler

James Stirling

Henri Poincaré

Asymptotic expansion

Divergent series

Linear Differential equations

Infinite Series

Mathematics

Counting prime polynomials and measuring complexity and similarity of information

Rebenich, Niko

02 May 2016

This dissertation explores an analogue of the prime number theorem for polynomials over finite fields as well as its connection to the necklace factorization algorithm T-transform and the string complexity measure T-complexity. Specifically, a precise asymptotic expansion for the prime polynomial counting function is derived. The approximation given is more accurate than previous results in the literature while requiring very little computational effort. In this context asymptotic series expansions for Lerch transcendent, Eulerian polynomials, truncated polylogarithm, and polylogarithms of negative integer order are also provided. The expansion formulas developed are general and have applications in numerous areas other than the enumeration of prime polynomials. A bijection between the equivalence classes of aperiodic necklaces and monic prime polynomials is utilized to derive an asymptotic bound on the maximal T-complexity value of a string. Furthermore, the statistical behaviour of uniform random sequences that are factored via the T-transform are investigated, and an accurate probabilistic model for short necklace factors is presented. Finally, a T-complexity based conditional string complexity measure is proposed and used to define the normalized T-complexity distance that measures similarity between strings. The T-complexity distance is proven to not be a metric. However, the measure can be computed in linear time and space making it a suitable choice for large data sets. / Graduate / 0544 0984 0405 / nrebenich@gmail.com

prime numbers

prime polynomials

finite fields

irreducible polynomials

polylogarithm

Lerch transcendent

Eulerian polynomials

T-codes

NCD

necklaces

string complexity

information distance

divergent series

asymptotic approximation

randomess test

conditional complexity

necklace factorization

prime number theorem

combinatorics

T-complexity

data mining

optimal truncation

function fields

lyndon words

lyndon factorization

similarity measure

asymptotic enumeration