Preface. Introduction: Why Study Foundations of Music Education? 1. History of Music Education. 2. Philosopbical Foundations of Music Education. 3. The Musical and Aesthetic Foundations of Music Education. 4. The Role and Purpose of Music in American Education. 5. Sociological Foundations of Music Education. 6. Social Psychological Foundations of Music Education. 7. Psychological Foundations of Music Education. 8. Application of Psychology to Music Teaching. 9. Curriculum. 10. Assessing Musical Behaviors. 11. Research and Music Education. 12. Teacher Education and Future Directions. Index.
A state-of-the-art overview of the latest theory and research in music psychology, written by leaders in the field. This authoritative, landmark volume offers a comprehensive state-of-the-art overview of the latest theory and research in music perception and cognition. Eminent scholars from a range of disciplines, employing a variety of methodologies, describe important findings from core areas of the field, including music cognition, the neuroscience of music, musical performance, and music therapy. The book can be used as a textbook for courses in music cognition, auditory perception, science of music, psychology of music, philosophy of music, and music therapy, and as a reference for researchers, teachers, and musicians. The book's sections cover music perception; music cognition; music, neurobiology, and evolution; musical training, ability, and performance; and musical experience in everyday life. Chapters treat such topics as pitch, rhythm, and timbre; musical expectancy, musicality, musical disorders, and absolute pitch; brain processes involved in music perception, cross-species studies of music cognition, and music across cultures; improvisation, the assessment of musical ability, and singing; and music and emotions, musical preferences, and music therapy. Contributors Fleur Bouwer, Peter Cariani, Laura K. Cirelli, Annabel J. Cohen, Lola L. Cuddy, Shannon de L'Etoile, Jessica A. Grahn, David M. Greenberg, Bruno Gingras, Henkjan Honing, Lorna S. Jakobson, Ji Chul Kim, Stefan Koelsch, Edward W. Large, Miriam Lense, Daniel Levitin, Charles J. Limb, Psyche Loui, Stephen McAdams, Lucy M. McGarry, Malinda J. McPherson, Andrew J. Oxenham, Caroline Palmer, Aniruddh Patel, Eve-Marie Quintin, Peter Jason Rentfrow, Edward Roth, Frank A. Russo, Rebecca Scheurich, Kai Siedenburg, Avital Sternin, Yanan Sun, William F. Thompson, Renee Timmers, Mark Jude Tramo, Sandra E. Trehub, Michael W. Weiss, Marcel Zentner
Explores music's scientific principles, the physiological properties of sound, how the ear perceives music, the effect of the acoustic environment, how instruments produce their sounds, and new computer applications in music
The fifth edition of Psychological Foundations of Musical Behavior appears at a time of continuing worldwide anxiety and turmoil. We have learned a lot about human musical behavior, and we have some understanding of how music can meet diverse human needs. In this exceptional new edition, the authors have elected to continue a “one volume” coverage of a broad array of topics, guided by three criteria: The text is comprehensive in its coverage of diverse areas comprising music psychology; it is comprehensible to the reader; and it is contemporary in its inclusion of information gathered in recent years. Chapter organization recognizes the traditional and more contemporary domains, with special emphases on psychoacoustics, musical preference, learning, and the psychological foundations of rhythm, melody, and harmony. Following the introductory preview chapter, the text examines diverse views of why people have music and considers music’s functions for individuals, its social values, and its importance as a cultural phenomenon. “Functional music” and music as a therapeutic tool is discussed, including descriptions and relationships involving psychoacoustical phenomena, giving considerable attention to perception, judgment, measurement, and physical and psychophysical events. Rhythmic behaviors and what is involved in producing and responding to rhythms are explored. The organization of horizontal and vertical pitch, tonality, scales, and value judgments, as well as related pedagogical issues are also considered. The basic aspects of musical performance, improvisation, composition, existing musical preferences and tastes, approaches to studying the affective response to music with particular emphasis on developments in psychological aesthetics are examined. The text closely relates the development and prediction of musical ability, music learning as a form of human learning, and music abnormalities, concluding with speculation regarding future research directions. The authors offer their latest review of aspects of human musical behavior with profound recognition of music’s enduring values.
This landmark collection explores the origins and foundations of music education in Europe, The Americas, Africa and Asia-Pacific, and the Middle East, and considers the inclusion of music as part of the compulsory school curriculum in the context of the historical, social and political landscape. Within each chapter, the contributors explore the following key areas: - the aims, objectives and content of the music curriculum - teaching methods - the provision and training of teachers of music - the experiences of pupils This fully revised second edition includes new chapters on Brazil, Israel, Kosovo, Lithuania, and Turkey, along with questions to encourage reflection and discussion. A concluding chapter has been added to encourage readers to consider the evolution of music education globally. The Foreword for this new edition has been written by Sheila Woodward, President of the International Society for Music Education. Contributors have been carefully selected to represent countries that have incorporated music into compulsory schooling for a variety of reasons resulting in a diverse collection which will guide future actions and policy.
Foundations of Diatonic Theory: A Mathematically Based Approach to Music Fundamentals is an introductory, undergraduate-level textbook that provides an easy entry point into the challenging field of diatonic set theory, a division of music theory that applies the techniques of discrete mathematics to the properties of diatonic scales. After introducing mathematical concepts that relate directly to music theory, the text concentrates on these mathematical relationships, firmly establishing a link between introductory pedagogy and recent scholarship in music theory. It then relates concepts in diatonic set theory directly to the study of music fundamentals through pedagogical exercises and instructions. Ideal for introductory music majors, the book requires only a general knowledge of mathematics, and the exercises are provided with solutions and detailed explanations. With its basic description of musical elements, this textbook is suitable for courses in music fundamentals, music theory for non-music majors, music and mathematics, and other similar courses that allow students to improve their mathematics skills while pursuing the study of music.
"Foundations for Superior Performance" is designed to help structure the daily rehearsal and advance the performance level of the ensemble. The primary goal is to offer a framework of exercises and routine drills that will facilitate the mastery of essential playing fundamentals. Different skill levels have been integrated into this book to meet the needs of the inexperienced player, and, at the same time, challenge the most advanced.
Foundations of Music Technology explores the core concepts of music technology and its uses as a mechanism to facilitate musicianship in a way that is accessible to all students--from the musician with limited technology skills to the technology expert with little knowledge in music notation. The text uses a free, customized software application for Mac or PC in order to demonstrate fundamental concepts of music technology germane to all professional applications like recording, synthesis, digital notation, MIDI, automating effects, acoustics, and more. With the concepts grasped using this "software-independent" approach, students can then transfer those learned skills over to the software of their choice.
A commonsense, self-contained introduction to the mathematics and physics of music; essential reading for musicians, music engineers, and anyone interested in the intersection of art and science. “Mathematics can be as effortless as humming a tune, if you know the tune,” writes Gareth Loy. In Musimathics, Loy teaches us the tune, providing a friendly and spirited tour of the mathematics of music—a commonsense, self-contained introduction for the nonspecialist reader. It is designed for musicians who find their art increasingly mediated by technology, and for anyone who is interested in the intersection of art and science. In Volume 1, Loy presents the materials of music (notes, intervals, and scales); the physical properties of music (frequency, amplitude, duration, and timbre); the perception of music and sound (how we hear); and music composition. Calling himself “a composer seduced into mathematics,” Loy provides answers to foundational questions about the mathematics of music accessibly yet rigorously. The examples given are all practical problems in music and audio. Additional material can be found at http://www.musimathics.com.