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The Riemann hypothesis and the distribution of prime numbers /Naji Arwashan.

By:

Arwashan, Naji [Author]

Material type: Text

TextSeries: Description: 1 online resourceContent type:

text

Media type:

computer

Carrier type:

online resource

Subject(s):

Genre/Form:

Electronic Books.

LOC classification:

QA246 .R546 2021

Online resources:

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Contents:

A guided tour in the world of complex numbers -- The eta series and the first extension of zeta -- The functional equation and the second extension of zeta -- The roots of the zeta function and the Riemann hypothesis -- The zeta function and counting the prime numbers -- Von Mangoldt formula to the rescue.

Subject: "This book is an introductory and comprehensive presentation of the Riemann Hypothesis, one of the most important open questions in math today. It is introductory because it is written in an accessible and detailed format that makes it easy to read and understand. And it is comprehensive because it explains and proves all the mathematical ideas surrounding and leading to the formulation of the hypothesis. Chapter 1 begins by defining the zeta function and exploring some of its properties when the argument is a real number. It proceeds to identify the series' domain of convergence and proves Euler's product formula. Chapter 2 introduces complex numbers and the complex analytic tools necessary to understand the zeta function in complex plane. Chapter 3 extends the domain of the zeta function for the first time by introducing the eta function. Presenting proofs by Sondow, it is shown that zeta can be defined for any complex number whose real part is positive. Next, the functional equation of the zeta function is derived in Chapter 4. This provides a method to extend the definition of zeta to the entirety of the complex plane. Chapter 5 is where the Riemann Hypothesis is properly introduced for the first time. It relates the zeros of the zeta and eta functions which leads to a simple formulation of the hypothesis. Chapters 6 and 7 connect the topics of zeta's zeros and the distribution of prime numbers. Chapter 6 introduces Riemann explicit formula and explains the use of Mobius transform to rewrite the prime counting function in terms of the Riemann prime counting one and it provides a detailed numerical example on how to use the Riemann's formula. Chapter 7 derives the von Mangoldt formula via the residue theorem and elucidates some of its important properties. Certain necessary mathematical tools, such as Fourier analysis and theta and gamma functional equations, are included in the appendices to make the chapters more concise and focused"--

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Holdings
Item type	Current library	Collection	Call number	URL	Status	Date due	Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD)	G. Allen Fleece Library ONLINE	Non-fiction	QA246 (Browse shelf(Opens below))	Link to resource	Available		on1246582246

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Previous				No cover image available				Next
Previous	QA241 A brief guide to algebraic number theoryH.P.F. Swinnerton-Dyer.	QA242.5 Modular forms and special cycles on Shimura curvesStephen S. Kudla, Michael Rapoport, Tonghai Yang.	QA245 Arithmetic functions /József Sándor and Krassimir Todorov Atanassov.	QA246 The Riemann hypothesis and the distribution of prime numbers /Naji Arwashan.	QA246 Prime-detecting sievesGlyn Harman.	QA247 Algebraic theory of numbersby Hermann Weyl.	QA247 A first course in module theoryM.E. Keating.	Next

Includes bibliographies and index.

The zeta function in the world of real numbers -- A guided tour in the world of complex numbers -- The eta series and the first extension of zeta -- The functional equation and the second extension of zeta -- The roots of the zeta function and the Riemann hypothesis -- The zeta function and counting the prime numbers -- Von Mangoldt formula to the rescue.

"This book is an introductory and comprehensive presentation of the Riemann Hypothesis, one of the most important open questions in math today. It is introductory because it is written in an accessible and detailed format that makes it easy to read and understand. And it is comprehensive because it explains and proves all the mathematical ideas surrounding and leading to the formulation of the hypothesis. Chapter 1 begins by defining the zeta function and exploring some of its properties when the argument is a real number. It proceeds to identify the series' domain of convergence and proves Euler's product formula. Chapter 2 introduces complex numbers and the complex analytic tools necessary to understand the zeta function in complex plane. Chapter 3 extends the domain of the zeta function for the first time by introducing the eta function. Presenting proofs by Sondow, it is shown that zeta can be defined for any complex number whose real part is positive. Next, the functional equation of the zeta function is derived in Chapter 4. This provides a method to extend the definition of zeta to the entirety of the complex plane. Chapter 5 is where the Riemann Hypothesis is properly introduced for the first time. It relates the zeros of the zeta and eta functions which leads to a simple formulation of the hypothesis. Chapters 6 and 7 connect the topics of zeta's zeros and the distribution of prime numbers. Chapter 6 introduces Riemann explicit formula and explains the use of Mobius transform to rewrite the prime counting function in terms of the Riemann prime counting one and it provides a detailed numerical example on how to use the Riemann's formula. Chapter 7 derives the von Mangoldt formula via the residue theorem and elucidates some of its important properties. Certain necessary mathematical tools, such as Fourier analysis and theta and gamma functional equations, are included in the appendices to make the chapters more concise and focused"--

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