Music, the Brain, and Ecstasy: How Music Captures Our ImaginationMusic, the Brain, and Ecstasy is a far-reaching study of how music captivates us so completely and why we form such powerful connections to it. Leading us to an understanding of the pleasures of sound, Robert Jourdain draws on a variety of fields including science, psychology, and philosophy. He uses music from around the world to show how melodies work, how rhythm differs from beat, and why some sounds are beautiful and others ugly. Music, the Brain, and Ecstasy looks at the evolution of music and introduces surprising new concepts of memory and perception, knowledge and attention, motion and emotion, all at work as music takes hold of us. Along the way, a fascinating cast of characters brings Jourdain's narrative to vivid life: idiots savants who absorb whole pieces on a single hearing, composers who hallucinate entire compositions, a psychic who claimed to take dictation from long-dead composers, and victims of brain damage who can move only when they hear music. In each of these, Jourdain assures us, we will see parts of ourselves. Using such examples, he helps explain the parallels between music and language, and asks how the brain reacts to each. |
From inside the book
Results 1-3 of 20
Page 8
... ear canal . As you alternate between covered and uncovered pinnae , you'll find that the high - frequency hiss ... inner ear where neurons ( nerve cells ) await . Just like the air molecules that have transported music to the eardrum ...
... ear canal . As you alternate between covered and uncovered pinnae , you'll find that the high - frequency hiss ... inner ear where neurons ( nerve cells ) await . Just like the air molecules that have transported music to the eardrum ...
Page 9
... inner ear . Not every creature requires pinnae and a middle ear . Fish have no need at all , since sound skips easily from water to tissues that are themselves mostly water , exciting the inner ear along the way . Many kinds of fish are ...
... inner ear . Not every creature requires pinnae and a middle ear . Fish have no need at all , since sound skips easily from water to tissues that are themselves mostly water , exciting the inner ear along the way . Many kinds of fish are ...
Page 10
... ears had only a single straight bone reaching from inner ear to a patch of outer skin that functioned as an eardrum . This single - ossicle design is still found in all amphibians , rep- tiles , and birds . Only mammals add hammer and ...
... ears had only a single straight bone reaching from inner ear to a patch of outer skin that functioned as an eardrum . This single - ossicle design is still found in all amphibians , rep- tiles , and birds . Only mammals add hammer and ...
Other editions - View all
Music, the Brain, and Ecstasy: How Music Captures Our Imagination R Jourdain,Robert Jourdain No preview available - 1997 |
Common terms and phrases
absolute pitch activity amusia anticipations arises auditory cortex auditory imagery auditory system basal ganglia bass beat Beethoven body categorization century cerebral cortex Chapter chord cochlea cognitive complex composers composition concert hall consonant cycles per second Debussy dissonance emotion evolved experience frequency frontal lobes harmony hear hemisphere hierarchy human ideas improvisation individual inner ear intervals kind language left brain levels listening loud means melodic contour melody memory meter middle ear mind motions motor cortex move movement Mozart muscles musicians neurons notes octave octave equivalence opera orchestra overtones Parasaurolophus particular patterns perceive perception performance phrasing piano piece Pink Panther pinnae pitch space play pleasure polyrhythm primary auditory cortex relations resonance reverberation rhythm rhythmic right brain savants scale tones scans score sensation sense simple skills sometimes song sort sound string symphony temporal tend There's tion tonal center triad tune vibrations visual voices words York