You don't dance by choice, but by instinct скачать в хорошем качестве

You don't dance by choice, but by instinct

Why does music make us dance? How come some songs get our heads bopping, but others don't? This video was produced for Echosciences Provence-Alpes-Côte d'Azur with Benjamin Morillon (INSERM): https://www.echosciences-paca.fr Based on an original idea from Play Azur. Video coordinated by Gulliver https://www.gulliver-sciences.fr and Play Azur https://www.playazur.fr Follow their work: @EchoSciPaca (Facebook & Twitter) and @PlayAzur Discover the playlist of Play Azur scientific meetings, season 3:    • Rencontres EchoScientifiques de la SAISON 3   My full conversation with Benjamin:    • Rencontre EchoScientifique : Scilabus & Be...   Article by Echosciences for extra resources: https://www.echosciences-paca.fr/arti... Video editing: Marina Quenan FR and EN subtitles: Marianne Lalande SUPPORT SCILABUS uTip: https://utip.io/scilabus Tipeee: https://www.tipeee.com/Scilabus Patreon:   / scilabus   FOLLOW SCILABUS Newsletter: http://eepurl.com/dJeBVH YouTube: http://www.youtube.com/user/scilabus?... Instagram: @viviane_scilabus Twitter:   / scilabus   Facebook:   / scilabus   MY KIT https://kit.co/Scilabus/mon-kit SOURCES 1. Fabrics T. Natural Rythms of Periodic temporal attention. Brainpost. 2. Albouy P, Benjamin1 L, Morillon B, Zatorre RJ. Distinct sensitivity to spectrotemporal modulation supports brain asymmetry for speech and melody. Science (80- ). 2020;367(6481):1043–7. 3. Vuust P, Witek MAG. Rhythmic complexity and predictive coding: A novel approach to modeling rhythm and meter perception in music. Front Psychol. 2014;5(SEP):1–14. 4. Salleh BA. How your brain disentangles words and meldoy from a single line of song. Science news. 5. Koelsch S, Vuust P, Friston K. Predictive Processes and the Peculiar Case of Music. Trends Cogn Sci [Internet]. 2019;23(1):63–77. Available from: https://doi.org/10.1016/j.tics.2018.1... 6. Giroud J, Trébuchon A, Schön D, Marquis P, Liegeois-Chauvel C, Poeppel D, et al. Asymmetric sampling in human auditory cortex reveals spectral processing hierarchy. PLoS Biol. 2020;18(3):1–20. 7. Hamilton J. How the brain teases apart a song’s words and music. NPR. 2020; 8. Albouy P, Benjamin1 L, Morillon B, Zatorre RJ. Distinct sensitivity to spectrotemporal modulation supports brain asymmetry for speech and melody. Science (80- ). 2020;367(6481):1043–7. 9. Ding N, Patel AD, Chen L, Butler H, Luo C, Poeppel D. Temporal modulations in speech and music. Neurosci Biobehav Rev [Internet]. 2017;81:181–7. Available from: http://dx.doi.org/10.1016/j.neubiorev... 10. Sammler D. Splitting speech and music. Science (80- ). 2020;367(6481):974–6. 11. Patel AD. Music and the brain. The great courses plus. 2015.