L 17 The Human Voice The Vocal Tract epiglottis Vocal chords Oscillator: Air under pressure from the lungs make the vocal folds vibrate. Without the “resonator cavities”, the vibrations sound like lips vibrating, or a trumpet or trombone mouthpiece being “buzzed” (with a central frequency when singing). The tension in the vocal muscles control the pitch. Range of Frequencies for the Normal Speaking Human Voice Males: 70-200 Hz Females: 140-400 (men have more dense and longer vocal folds) Singing voices (especially the higher harmonics) extend the range into the kilohertz region. English Vowels Classification of vowels IPA (International Phonetic Alphabet) Vowel Chart formants Formants: A range of frequencies that are enhanced. The shape of the envelope determines what vowel you hear! Vocal Formants “had” Pure 250 Hz source (with lots of harmonics) 1 kHz 2 kHz 3 kHz send that 250 Hz sound (with lots of harmonics) through the cone: "Formant" 1 kHz 2 kHz 3 kHz Resonance Cavity demo http://www.exploratorium.edu/exhibits/ vocal_vowels/ We can model the vocal cavity as a 17cm long conical tube closed at one end (the vocal fold end). Hence the harmonics expected would be fn=n v/4(.17) = 1, 2, 3 kHz, etc. The Q is very low due to the softness of the cavity tissue, so the resonances are rather broad. Different shapes create different formant frequencies send that 500 Hz sound (with lots of harmonics) through the cone: SAME Formant 1 kHz 2 kHz 3 kHz Formant frequencies determine vowel sounds demo with Raven Lite … Classification of vowels IPA (International Phonetic Alphabet) Vowel Chart What is the frequency of the note? a) b) c) d) 1 kHz 2 kHz 3.1 kHz 1.0 kHz 250 Hz 2 kHz 3 kHz What is the frequency of the note? a) b) c) d) 1 kHz 2 kHz 3.1 kHz 1.0 kHz 250 Hz 2 kHz 3 kHz What is the frequency of first formant? a) b) c) d) 1 kHz 2 kHz 3.1 kHz 1.0 kHz 250 Hz 2 kHz 3 kHz What is the frequency of first formant? a) b) c) d) 1 kHz 2 kHz 3.1 kHz 1.0 kHz 250 Hz 2 kHz 3 kHz If I sing a higher note…. a) b) c) d) the pitch and the formants go up the formants go up but the pitch stays the same the pitch goes up but the formants stay the same both the pitch and the formants go up 1 kHz 2 kHz 3 kHz If I sing a higher note…. a) b) c) d) the pitch and the formants go up the formants go up but the pitch stays the same the pitch goes up but the formants stay the same both the pitch and the formants go up 1 kHz 2 kHz 3 kHz The oscillator that produces the sound waves for the voice is A. B. C. D. The vocal tract (throat, mouth, nasal cavity) The vocal chords The lungs The tongue The oscillator that produces the sound waves for the voice is A. B. C. D. The vocal tract (throat, mouth, nasal cavity) The vocal chords The lungs The tongue The resonance cavity that amplifies and suppresses certain frequencies for the voice is A. B. C. D. The vocal tract (throat, mouth, nasal cavity) The vocal chords The lungs The tongue The resonance cavity that amplifies and suppresses certain frequencies for the voice is A. B. C. D. The vocal tract (throat, mouth, nasal cavity) The vocal chords The lungs The tongue The formants correspond to which effect that we hear A. B. C. D. Vocal pitch Consonants Vowel sounds Loudness The formants correspond to which effect that we hear A. B. C. D. Vocal pitch Consonants Vowel sounds Loudness The harmonics (especially the first) of a voice correspond to which effect that we hear A. B. C. D. Vocal pitch Consonants Vowel sounds Loudness The harmonics (especially the first) of a voice correspond to which effect that we hear A. B. C. D. Vocal pitch Consonants Vowel sounds Loudness Operatic Tenor & Orchestra Acoustic power in formants allow operatic singer to be heard over orchestra. CT 8.3.2 Musicians refer to tremolo when the loudness fluctuates while the pitch remains unchanged. Is this an example of… A: Frequency modulation. B: Amplitude modulation. CT 8.3.2 Musicians refer to tremolo when the loudness fluctuates while the pitch remains unchanged. Is this an example of… A: Frequency modulation. B: Amplitude modulation. CT 8.3.2b Musicians refer to vibrato when the pitch is wiggled up and down as you sing. Is this an example of… A: Frequency modulation. B: Amplitude modulation. Violinists can make “excursions” From concert A of .2 semitones, 6 times/sec. 6 Hz -> “signal frequency” 440 Hz -> “carrier frequency” 0.2 semitones-> strength of the modulation CT 8.3.2b Musicians refer to vibrato when the pitch is wiggled up and down as you sing. Is this an example of… A: Frequency modulation. B: Amplitude modulation. Violinists can make “excursions” From concert A of .2 semitones, 6 times/sec. 6 Hz -> “signal frequency” 440 Hz -> “carrier frequency” 0.2 semitones-> strength of the modulation