
In Percussion Pedagogy, Author Michael Udow Offers A Practical Guide For Students Interested In Teaching Percussion As Well As Improving Their Technique. Udow First Introduces The Bouncing Ball System, A Technical Analogy That Teaches Students To Resist The Effects Of Inertia. Throughout The Book, The Bouncing Ball Analogy Develops Into A Core Performance Principle Based On Integrated Motions Resulting In Refined Tone Quality And Meaningful Musicianship. The Book Applies This Principle To Several Instruments Including Snare Drum, Timpani, Marimba, Vibraphone, Multiple-percussion, Tambourine And Triangle, Bass Drum, Cymbals, Tam-tams, And A Variety Of Western Concert And World Percussion Repertoire. In Particular, Udow Addresses The Importance Of Coupling Stroke Types With Stickings To Set The Foundation For Precise Rhythmic Playing And Expressive Musicality. Chapters Also Focus On Integrated Rhythms, Breath, And Pulsed Rhythms, Anatomy And Physiological Health, Psychological Health, Purposeful Listening, And The Importance Of Singing When Practicing. Offering Solutions To Common Performance Problems, The Book's Many Examples Serve As A Paradigm For Future Problem Solving. A Comprehensive Companion Website Complements Udow's Teachings With A Wealth Of Video Tutorials And Listening Examples.
This text investigates the core question of how percussionists can integrate physical motion and psychological awareness to achieve superior technical proficiency and musical expression. Michael Udow, a seasoned percussionist and educator, utilizes his extensive performance background to present the Bouncing Ball system as a foundational framework. By analyzing the relationship between inertia, stroke types, and physiological health, the author provides a structured methodology for both students and teachers to refine their performance capabilities.
What You Will Find
Scope Limits
Experts and educators frequently cite this work as a comprehensive resource for bridging the gap between technical mechanics and artistic performance. Readers often note the practical utility of the companion website in clarifying the complex physical motions described in the text.
Page Count:
504
Publication Date:
2019-01-01
Publisher:
Oxford University Press
ISBN-10:
0190902965
ISBN-13:
9780190902964
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