RETROSPECTIVE REVIEW OF THE DEVELOPMENT OF THE CONCEPTS OF CONSONANCE AND DISSONANCE: ON THE PROBLEM OF MUSICAL AND AESTHETIC AS WELL AS PHYSICAL AND MATHEMATICAL INTERPRETATION

Authors

  • Nataliia BIELIAVINA Professor, PhD of pedagogical sciences, National Academy of Managerial staff of Culture and Arts, 9, Lavrska str., Kyiv, 01015, Ukraine, natbeliyavina64@gmail.com
  • Volodymyr BIELIAVIN Associate professor, PhD of Technical Science, National Academy of Managerial staff of Culture and Arts, 9, Lavrska str. Kyiv, 01015, Ukraine, BASILUKVOLODY@gmail.com

DOI:

https://doi.org/10.24193/subbmusica.2021.2.10

Keywords:

consonance, dissonance, mistuned consonance, overtone, harmonics, beats, phase, spectral component

Abstract

The research aimed at a comprehensive retrospective analysis of the development of “consonance and dissonance” as a musical and aesthetic category in physical and mathematical interpretation; defining the notion of consonance as a musical theoretical and aesthetic category, confirming the relevance of its use in physical and mathematical terminology to explain acoustic phenomena. Research methodology is based on the use of the retrospective method (or the retrospection method), which allowed identifying the theories of consonance and dissonance in the historical retrospective. The periodization method was used to find out individual stages in the development of science in order to discover the leading directions of scientific thought, identify new elements relating to various aspects of “consonance” and “dissonance”. The study of the retrospective review of the development of the notions of consonance and dissonance in the physical and mathematical interpretation involved an interdisciplinary method a way of organizing research work, providing for the interaction of music and mathematics in the study of consonance and dissonance. Scientific novelty. This study is the first to reflect the general tendency towards the mathematization of the humanities and the humanitarization of the physical and mathematical areas of modern culture. Some provisions of musical acoustics were clarified in the context of creating a harmonious conceptual structure. The article presents the author’s concept of clarifying the notion of phase in relation to the spectral structure of an audio signal based on the notion “slightly mistuned consonance”. Conclusions. A retrospective review of the development of the notions of consonance and dissonance in the physical and mathematical interpretation was carried out and presented as a comprehensive description and review of the formation of concepts in the temporal sequence of their creation. Retrospectiveness through a review of significant discoveries and achievements in music and natural science allowed tracing the formation of the theories of consonance and dissonance from the standpoint of the interdisciplinarity of modern knowledge in the humanities. The further process of the development of sound musical art technologies requires a significantly higher scientific level of their study, the creation of a coherent conceptual system based on modern physical and mathematical sciences as well as computer science to explain sound acoustic phenomena.

Rezumat. RETROSPECTIVA DEZVOLTĂRII CONCEPTELOR DE CONSONANȚĂ ȘI DISONANȚĂ: ASUPRA PROBLEMEI INTERPRETĂRII MUZICALE ȘI ESTETICE, PRECUM ȘI FIZICE ȘI MATEMATICE. Cercetarea a avut ca scop o analiză retrospectivă cuprinzătoare a evoluției "consonanței și disonanței" ca și categorie muzicală și estetică în interpretarea fizică și matematică; definirea noțiunii de consonanță ca o categorie teoretică și estetică muzicală, confirmând relevanța utilizării acesteia în terminologia fizică și matematică pentru explicarea fenomenelor acustice. Metodologia cercetării se bazează pe utilizarea metodei retrospective (sau metoda retrospecției), care a permis identificarea teoriilor consonanței și disonanței în retrospectiva istorică. Metoda de periodizare a fost utilizată pentru a afla etapele individuale în dezvoltarea științei, pentru a descoperi direcțiile principale ale gândirii științifice, pentru a identifica elemente noi legate de diferite aspecte ale "consonanței" și "disonanței". Studiul retrospectiv al dezvoltării noțiunilor de consonanță și disonanță în interpretarea fizică și matematică a implicat o metodă interdisciplinară, un mod de organizare a activității de cercetare, care prevede interacțiunea dintre muzică și matematică în studiul consonanței și disonanței. Noutate științifică. Acest studiu este primul care reflectă tendința generală de matematizare a științelor umaniste și de umanitarizare a domeniilor fizice și matematice ale culturii moderne. Au fost clarificate unele prevederi ale acusticii muzicale în contextul creării unei structuri conceptuale armonioase. Articolul prezintă conceptul autorului de clarificare a noțiunii de fază în raport cu structura spectrală a unui semnal audio, bazat pe noțiunea de "consonanță ușor dezacordată". Concluzii. A fost realizată o retrospectivă a dezvoltării noțiunilor de consonanță și disonanță în interpretarea fizică și matematică și prezentată ca o descriere și o revizuire cuprinzătoare a formării conceptelor în secvența temporală a creării lor. Retrospectiva printr-o trecere în revistă a descoperirilor și realizărilor semnificative din domeniul muzicii și al științelor naturale a permis urmărirea formării teoriilor consonanței și disonanței din perspectiva interdisciplinarității cunoașterii moderne în domeniul științelor umaniste. Continuarea procesului de dezvoltare a tehnologiilor artei muzicale sonore necesită un nivel științific semnificativ mai ridicat al studiului acestora, crearea unui sistem conceptual coerent bazat pe științele fizice și matematice moderne, precum și informatică pentru a explica fenomenele acustice sonore.

Cuvinte-cheie: consonanță, disonanță, consonanță neacordată, armonice superioare, armonice, bătăi, fază, componentă spectrală

References

Aldoshyna, Iryna. Basics of psychoacoustics. https://nsk.jagannath.ru/users_files/books/Osnovy_psihoakustiki.pdf

Ananiev, Anatoliy. Elements of musical acoustics. Kyiv: Feniks, 2008.

Ananiev, Anatoliy. Acoustics for sound engineers: a guide. Feniks, 2012.

Arthurs, Yuko, Beeston, Amy, et al.. Perception of isolated chords: Examining frequency of occurrence, instrumental timbre, acoustic descriptors and musical training. Psychology of Music, 46, 2018, pp. 662-681.

Belyavin, Viktor. Mathematization as a basis for the formation of basic knowledge and competencies of a modern sound director. Bulletin of the National Academy of Management of Culture and Arts, 3, 2019, pp. 196-201.

‪Bieliavina, Nataliia. Fundamentals of sound design: a textbook. NAKKKiM, 2011.‬‬‬‬‬‬‬

Bieliavina, Nataliia. Joint performance of “Concertini” and coordinated sound of “Consonantis” as aesthetic roots of the concept of “concert”. Culture and modernity: Almanac, 1, 2012, pp. 119-122.

Bieliavina, Nataliia. Methodology and methods of teaching professional art disciplines. NAKKKiM, 2019.

Bondarenko, Andrii, and Shulhina, Valeriia. Music informatics. NAKKKiM, 2011.

Bones, Oliver; Hopkins, Kathryn; et al. Phase locked neural activity in the human brainstem predicts preference for musical consonance. Neuropsychologia, 58, no. 100, 2014, pp. 23-32.

Bowling, Daniel, and Purves, Dale. A biological rationale for musical consonance. Proceedings of the National Academy of Sciences of the United States of America, 112, 2015, pp. 11155-11160.

Feynman, Richard, Leyton, Richard, et al. Feynman Lectures in Physics. Mir, 1965.

Fink, Lev. Signals, interference, errors ... (Notes on some surprises, paradoxes, and delusions in communication theory). Sviaz, 1978.

Harbuzov, Nikolaiy. Musical acoustics. Muzhiz, 1954.

Harrison, Peter, and Pearce, Marcus. An energy-based generative sequence model for testing sensory theories of Western harmony. Proceedings of the 19th International Society for Music Information Retrieval Conference, 2018, pp. 160-167.

Herasymova-Persydska, Nina. “Music. Time. Space. Kyiv: Spirit and Litera, 2012.

Horiukhina, Nadiia. Dynamic Forms.” Essays on Musical Style and Form. Kyiv: Musical Ukraine, edited by A. Hokynska, 1985.

Horiukhina, Nadiia. Open forms. Shape and style. LOLHK, 1990.

Hryshchenko, Valentyn. Composition and computer arrangement. NAKKiM, 2016.

Kharuto, Aleksandr. Computer Analysis of Sound in Music Science. P. I. Chaikovsky Moscow State Conservatory, 2015.

Kokhanyk, Iryna. Some features of the individual style of E. Stankovich (harmony as a style factor). Historical and theoretical problems of musical style. Thematic collection of works, 1993,pp. 87-102.

Kokhanyk, Iryna. A piece of music: the interaction of stable and mobile in terms of style. Scientific Bulletin of the P. I. Chaikovsky National Music Academy of Ukraine: Musical work: the problem of understanding, 20, 2002, pp. 44-51.

Kokhanyk, Iryna. On the issue of the dialectic of style and non-style in the process of style formation. Scientific Bulletin of the P. I. Chaikovsky National Music Academy of Ukraine: Style of musical creativity: aesthetics, theory, performance, 37, 2004, pp. 37-43.

Kotliarevskyi, Ivan. Musical-theoretical systems of European musicology. Musical Ukraine, 1983.

Lahdelma, Imre. At the interface between sensation and emotion: Perceived qualities of single chords. (Ph.D. thesis), Jyväskylän, University of Jyväskylä, 2017.

Lahdelma, Imre; Eerola, Tuomas. Cultural familiarity and musical expertise impact the pleasantness of consonance/dissonance but not its perceived tension. Scientific Reports, 10, no. 8693, 2020, pp. 1-11.

Losev, Aleksey. Antique musical aesthetics. Muzgiz, 1960.

Mcdermott, Josh, Schultz, Alan, et al. Indifference to dissonance in native Amazonians reveals cultural variation in music perception. Nature, 535, 2016, pp. 547-550.

Moskalenko, Viktor. Lectures on Musical Interpretation. Kliaksa, 2012.

Neihauz, Henrikh. On the art of piano playing. Iskustvo, 1982.

Oskolkov, Sergey. Modern sound engineering: creativity, technology, education. SPbGUP, 2013.

Parncutt, Richard. Commentary on Cook & Fujisawa’s “The psychophysics of harmony perception: Harmony is a three-tone phenomenon”. Empirical Musicology Review, 1, no. 4, 2006, pp. 204-209.

Parncutt, Richard, and Hair, Graham. Consonance and dissonance in music theory and psychology: Disentangling dissonant dichotomies. Journal of Interdisciplinary Music Studies, 5, 2011,pp. 119–166.

Perlovsky, Leonid. Music: Passions and Cognitive Functions. Elsevier, 2017.

Popescu, Tudor, Neuser, Monja, et al. The pleasantness of sensory dissonance is mediated by musical style and expertise. Scientific Reports. 9, no. 1, 2019, p.1070.

Prete, Giulia, Fabri, Mara, et al. The “consonance effect” and the hemispheres: A study on a split-brain patient. Laterality, 20, no. 3, 2015, pp. 257-269.

Riman, Huho. Music Dictionary. Direktmedia Pablishinh, 2008. http://biblioclub.ru/index.php?page=dict&dict_id=22

Shestakov, Viacheslav. Musical aesthetics of the Western European Middle Ages and Renaissance. Music, 1966.

Shestakov, Viacheslav. Musical aesthetics of Western Europe in the 17th-18th centuries. Music, 1971.

Shestakov, Viacheslav. Musical aesthetics of the Western European Middle Ages. Musical Ukraine, 1976.

Shyp, Sergii. Musical speech and the language of music. Theoretical research. Publishing house of the A.V. Nezhdanova Odesa State Conservatory, 2001.

Shyp, Sergii. Theory of Artistic Styles. Naukovetz, 2007.

Smahlii, Halyna, and Malovyk, Liubov. Fundamentals of music theory. Fakt, 2005.

Strutt, John William, and Baron Rayleigh. The Theory of Sound. Doves Publication, 1945.

Downloads

Published

2021-12-30

How to Cite

BIELIAVINA, N., & BIELIAVIN, V. (2021). RETROSPECTIVE REVIEW OF THE DEVELOPMENT OF THE CONCEPTS OF CONSONANCE AND DISSONANCE: ON THE PROBLEM OF MUSICAL AND AESTHETIC AS WELL AS PHYSICAL AND MATHEMATICAL INTERPRETATION. Studia Universitatis Babeș-Bolyai Musica, 66(2), 133–156. https://doi.org/10.24193/subbmusica.2021.2.10

Issue

Section

Articles

Similar Articles

<< < 1 2 3 > >> 

You may also start an advanced similarity search for this article.