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Gripped with vengeful passion,
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The Queen of the Night tears
across the stage.
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She begins to sing her titular aria,
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one of the most famous sections from
Mozart’s beloved opera, The Magic Flute.
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The orchestra fills the hall with music,
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but the queen’s voice soars above
the instruments.
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Its melody rings out across thousands
of patrons,
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reaching seats 40 meters away— all
without any assistance from a microphone.
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How is it possible that this single voice
can be heard so clearly,
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above the strains of dozens
of instruments?
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The answer lies in the physics of the
human voice,
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and the carefully honed technique
of an expert opera singer.
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All the music in this opera house
originates from the vibrations
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created by instruments—
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whether it’s the strings of a violin
or the vocal folds of a performer.
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These vibrations send waves into the air,
which our brains interpret as sound.
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The frequency of these vibrations––
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specifically, the number of
waves per second––
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is how our brains determine the
pitch of a single note.
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But in fact, every note we hear
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is actually a combination
of multiple vibrations.
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Imagine a guitar string vibrating at its
lowest frequency.
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This is called the fundamental,
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and this low pitch is what our ears
mostly use to identify a note.
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But this lowest vibration triggers
additional frequencies called overtones,
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which layer on top of the fundamental.
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These overtones break down into specific
frequencies called harmonics, or partials–
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and manipulating them is how
opera singers work their magic.
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Every note has a set of frequencies that
comprise its harmonic series.
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The first partial vibrates at twice the
frequency of the fundamental.
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The next partial is three times the
fundamental’s frequency, and so on.
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Virtually all acoustic instruments
produce harmonic series,
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but each instrument’s shape and material
changes the balance of its harmonics.
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For example, a flute emphasizes the
first few partials,
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but in a clarinet’s lowest register,
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the odd-numbered partials
resonate most strongly.
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The strength of various partials
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is part of what gives each instrument
its unique sonic signature.
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It also affects an instrument’s ability
to stand out in a crowd,
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because our ears are more strongly
attuned to some frequencies than others.
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This is the key to an opera singer’s power
of projection.
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An operatic soprano—the highest
of the four standard voice parts—
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can produce notes with fundamental
frequencies
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ranging from 250 to 1,500 vibrations
per second.
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Human ears are most sensitive to
frequencies
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between 2,000 and 5,000
vibrations per second.
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So if the singer can bring out the
partials in this range,
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she can target a sensory sweet spot
where she’s most likely to be heard.
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Higher partials are also advantageous
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because there’s less competition
from the orchestra,
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whose overtones are weaker at
those frequencies.
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The result of emphasizing these
partials
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is a distinctive ringing timbre
called a singer’s squillo.
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Opera singers work for decades to
create their squillo.
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They can produce higher frequencies
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by modifying the shape and tension
in their vocal folds and vocal tract.
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And by shifting the position of their
tongues and lips,
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they accentuate some overtones
while dampening others.
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Singers also increase their range of
partials with vibrato––
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a musical effect in which a note slightly
oscillates in pitch.
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This creates a fuller sound that rings
out
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over the instruments’ comparatively
narrow vibratos.
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Once they have the right partials,
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they employ other techniques to
boost their volume.
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Singers expand their lung capacity and
perfect their posture
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for consistent, controlled airflow.
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The concert hall helps as well,
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with rigid surfaces that reflect sound
waves towards the audience.
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All singers take advantage of these
techniques,
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but different vocal signatures demand
different physical preparation.
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A Wagnerian singer needs to build up
stamina
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to power through the composer’s
four-hour epics.
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While bel canto singers require versatile
vocal folds
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to vault through acrobatic arias.
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Biology also sets some limits—
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not every technique is feasible for every
set of muscles,
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and voices change as singers age.
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But whether in an opera hall or a
shower stall,
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these techniques can turn unamplified
voices
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into thundering musical masterpieces.
closed TED
