The Math Behind the Music


Book Description

Accompanying CD-ROM includes musical selections.




From Music to Mathematics


Book Description

A guided tour of the mathematical principles inherent in music. Taking a "music first" approach, Gareth E. Roberts's From Music to Mathematics will inspire students to learn important, interesting, and at times advanced mathematics. Ranging from a discussion of the geometric sequences and series found in the rhythmic structure of music to the phase-shifting techniques of composer Steve Reich, the musical concepts and examples in the book motivate a deeper study of mathematics. Comprehensive and clearly written, From Music to Mathematics is designed to appeal to readers without specialized knowledge of mathematics or music. Students are taught the relevant concepts from music theory (notation, scales, intervals, the circle of fifths, tonality, etc.), with the pertinent mathematics developed alongside the related musical topic. The mathematics advances in level of difficulty from calculating with fractions, to manipulating trigonometric formulas, to constructing group multiplication tables and proving a number is irrational. Topics discussed in the book include • Rhythm • Introductory music theory • The science of sound • Tuning and temperament • Symmetry in music • The Bartók controversy • Change ringing • Twelve-tone music • Mathematical modern music • The Hemachandra–Fibonacci numbers and the golden ratio • Magic squares • Phase shifting Featuring numerous musical excerpts, including several from jazz and popular music, each topic is presented in a clear and in-depth fashion. Sample problems are included as part of the exposition, with carefully written solutions provided to assist the reader. The book also contains more than 200 exercises designed to help develop students' analytical skills and reinforce the material in the text. From the first chapter through the last, readers eager to learn more about the connections between mathematics and music will find a comprehensive textbook designed to satisfy their natural curiosity.




Music: A Mathematical Offering


Book Description

This book explores the interaction between music and mathematics including harmony, symmetry, digital music and perception of sound.




Math and Music


Book Description

From the beat of a tribal drum to a choir of crickets--music is everywhere. Math and Music explores the music of various cultures and the sounds heard in nature while highlighting the mathematical concepts, such as proportion, patterns, Fibonacci numbers, geometric transformations, and trigonometry, found in music. The companion poster explores mysterious connections between seemingly different entities, such as music and animals! A four-page guide explains the connections students may discover.




The Musical-Mathematical Mind


Book Description

This book presents a deep spectrum of musical, mathematical, physical, and philosophical perspectives that have emerged in this field at the intersection of music and mathematics. In particular the contributed chapters introduce advanced techniques and concepts from modern mathematics and physics, deriving from successes in domains such as Topos theory and physical string theory. The authors include many of the leading researchers in this domain, and the book will be of value to researchers working in computational music, particularly in the areas of counterpoint, gesture, and Topos theory.




Transdisciplinarity in Mathematics Education


Book Description

The book explores various facets of transdisciplinarity in mathematics education and its importance for research and practice. The book comprehensively outlines the ways that mathematics interacts with different disciplines, world views, and contexts; these topics include: mathematics and the humanities, the complex nature of mathematics education, mathematics education and social contexts, and more. It is an invaluable resource for mathematics education students, researchers, and practitioners seeking to incorporate transdisciplinarity into their own practice.




From Music to Mathematics


Book Description

A guided tour of the mathematical principles inherent in music. Taking a "music first" approach, Gareth E. Roberts's From Music to Mathematics will inspire students to learn important, interesting, and at times advanced mathematics. Ranging from a discussion of the geometric sequences and series found in the rhythmic structure of music to the phase-shifting techniques of composer Steve Reich, the musical concepts and examples in the book motivate a deeper study of mathematics. Comprehensive and clearly written, From Music to Mathematics is designed to appeal to readers without specialized knowledge of mathematics or music. Students are taught the relevant concepts from music theory (notation, scales, intervals, the circle of fifths, tonality, etc.), with the pertinent mathematics developed alongside the related musical topic. The mathematics advances in level of difficulty from calculating with fractions, to manipulating trigonometric formulas, to constructing group multiplication tables and proving a number is irrational. Topics discussed in the book include • Rhythm • Introductory music theory • The science of sound • Tuning and temperament • Symmetry in music • The Bartók controversy • Change ringing • Twelve-tone music • Mathematical modern music • The Hemachandra–Fibonacci numbers and the golden ratio • Magic squares • Phase shifting Featuring numerous musical excerpts, including several from jazz and popular music, each topic is presented in a clear and in-depth fashion. Sample problems are included as part of the exposition, with carefully written solutions provided to assist the reader. The book also contains more than 200 exercises designed to help develop students' analytical skills and reinforce the material in the text. From the first chapter through the last, readers eager to learn more about the connections between mathematics and music will find a comprehensive textbook designed to satisfy their natural curiosity.




Max/MSP/Jitter for Music


Book Description

In Max/MSP/Jitter for Music, author and music technologist V. J. Manzo provides a user-friendly introduction to a powerful programming language that can be used to write custom software for musical interaction. This second edition brings the book fully up-to-date with new applications in integrating Max with Ableton Live and offers source code for a variety of new projects.




Discovering the musical mind


Book Description

Following her distinguished earlier career as a concert pianist and later as a music theorist, Jeanne Bamberger conducted countless case studies analysing musical development and creativity the results of which were published in important scientific journals. Discovering musical mind draws together in one source these classic studies, offering the chance to revisit and reconsider some of her conclusions. Reviewing the data in light of current theories of cognitive development, she discusses how some of the conclusions she drew stand up to scrutiny, whilst in other cases, anomalies turn out to have greater significance than expected. The book is a collection of Bamberger's papers from 1975 to 2011. It includes her first study of Beethoven's original fingerings, her beginning work with children's invented notations, close observations and analysis of children in the Laboratory for Making Things, studies of musically gifted children, and the emergent musical development of students in elementary-secondary school and university undergraduate and graduate studies. The observations and research lead to the development of an interactive, computer-based music environment that uses her pragmatic theory of musical development as the basis for a project-oriented program for teaching and learning. Unlike other collections, the book is both interdisciplinary and strongly practical. It brings together and integrates Bamberger's background in music theory, research in music perception and music education, performance, cognitive development, artificial intelligence, and procedural music composition. Her multi-faceted approach to music theory and music pedagogy is guided throughout by her commitment to an understanding and respect for an individual's natural, creative musical intelligence. This natural competence becomes the formative ground on which to help people of all ages build an ever growing understanding and engagement with the evolving structures of the world's music. Bringing together a body of research currently scattered across a range of journals, or simply no longer available, the book will make fascinating reading for those in the fields of musical developmental and educational psychology.




The Physics of Music


Book Description