Equivalents of the Riemann Hypothesis: Volume 2, Analytic Equivalents

Nonfiction, Science & Nature, Mathematics, Functional Analysis, Number Theory
Cover of the book Equivalents of the Riemann Hypothesis: Volume 2, Analytic Equivalents by Kevin Broughan, Cambridge University Press
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Kevin Broughan ISBN: 9781108187022
Publisher: Cambridge University Press Publication: November 2, 2017
Imprint: Cambridge University Press Language: English
Author: Kevin Broughan
ISBN: 9781108187022
Publisher: Cambridge University Press
Publication: November 2, 2017
Imprint: Cambridge University Press
Language: English

The Riemann hypothesis (RH) is perhaps the most important outstanding problem in mathematics. This two-volume text presents the main known equivalents to RH using analytic and computational methods. The book is gentle on the reader with definitions repeated, proofs split into logical sections, and graphical descriptions of the relations between different results. It also includes extensive tables, supplementary computational tools, and open problems suitable for research. Accompanying software is free to download. These books will interest mathematicians who wish to update their knowledge, graduate and senior undergraduate students seeking accessible research problems in number theory, and others who want to explore and extend results computationally. Each volume can be read independently. Volume 1 presents classical and modern arithmetic equivalents to RH, with some analytic methods. Volume 2 covers equivalences with a strong analytic orientation, supported by an extensive set of appendices containing fully developed proofs.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

The Riemann hypothesis (RH) is perhaps the most important outstanding problem in mathematics. This two-volume text presents the main known equivalents to RH using analytic and computational methods. The book is gentle on the reader with definitions repeated, proofs split into logical sections, and graphical descriptions of the relations between different results. It also includes extensive tables, supplementary computational tools, and open problems suitable for research. Accompanying software is free to download. These books will interest mathematicians who wish to update their knowledge, graduate and senior undergraduate students seeking accessible research problems in number theory, and others who want to explore and extend results computationally. Each volume can be read independently. Volume 1 presents classical and modern arithmetic equivalents to RH, with some analytic methods. Volume 2 covers equivalences with a strong analytic orientation, supported by an extensive set of appendices containing fully developed proofs.

More books from Cambridge University Press

Cover of the book Captive Anzacs by Kevin Broughan
Cover of the book Cost-Benefit Analysis for Project Appraisal by Kevin Broughan
Cover of the book Edgar Allan Poe in Context by Kevin Broughan
Cover of the book Proust and the Arts by Kevin Broughan
Cover of the book Nutrition in Critical Care by Kevin Broughan
Cover of the book Vibrations by Kevin Broughan
Cover of the book Dante: Monarchy by Kevin Broughan
Cover of the book Modern Quantum Field Theory by Kevin Broughan
Cover of the book Customary International Law by Kevin Broughan
Cover of the book Socrates' Daimonic Art by Kevin Broughan
Cover of the book Sites of Memory, Sites of Mourning by Kevin Broughan
Cover of the book Human Rights Law and the Marginalized Other by Kevin Broughan
Cover of the book River Discharge to the Coastal Ocean by Kevin Broughan
Cover of the book Performance and Identity in the Classical World by Kevin Broughan
Cover of the book Redefining Human Rights in the Struggle for Peace and Development by Kevin Broughan
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy