Syllables and Stress October 25, 2010
Practicalities Some homeworks to return… Review session on Wednesday. Mid-term on Friday. Note: transcriptions have been posted to the course web page. Let’s check out the Boston English sample.
Review: Suprasegmentals Last time, we learned that there were three kinds of languages: 1. Tone languages (Chinese, Navajo, Igbo) lexically determined tone on every syllable or word 2. Accentual languages (Japanese, Swedish) the location of an accent is lexically marked. 3. Stress languages (English, Russian) it’s complicated
What is Stress? Examples of stress in English: (V)vs.(N) Phonetically, stress is hard to define I.e., it is hard to measure. It seems to depend on an interaction of three quantifiable variables: Pitch Duration Loudness And also: quality
Loudness How do we measure how loud a sound is? Recall: one parameter of a sinewave is its amplitude. Peak amplitude (for sound) is the highest sound pressure reached during a particular wave cycle. peak-to-peak amplitude
Amplitude/Loudness Examples The higher the peak amplitude of a sinusoidal sound, the louder the sound seems to be.
RMS amplitude Peak-to-peak amplitude is sufficient for characterizing the loudness of sinewaves, but speech sounds are more complex. Another method of measuring loudness: root-mean-square (RMS) amplitude To calculate RMS amplitude: 1.Square the pressure value of the waveform at each point (sample) in the sound file 2.Average all the squared values 3.Take the square root of the average
RMS example A small sampling of a “sinewave” has the following pressure values: It looks like this (in Excel):
RMS calculations To calculate RMS amplitude for this sound, first square the values of each sample: Then average all the squared values ( ) / 9 = 5/9 =.555 Then take the square root of the average RMS amplitude =.745
Another example What about the RMS amplitude of this sound wave? It looks like this (in Excel):
More Complex Waveforms The following waveforms all have the same peak-to-peak amplitude:
Intensity Two related concepts are acoustic power and intensity. Power is just the square of amplitude. P = A 2 The intensity of a sound is its power relative to the power of some reference sound. Intensity is usually measured in decibels (dB). Decibels is a measure of intensity with reference to the quietest sound human ears can hear.
Some Numbers The intensity of a sound x can be measured in bels, where a bel is defined as: = log 10 (x 2 / r 2 ) r 2 is the power of the reference sound x 2 is the power of sound x. A decibel is a tenth of a bel. Some typical decibel values: 30 dBQuiet library, soft whispers 40 dBLiving room, refrigerator 50 dBLight traffic, quiet office 60 dBNormal conversation
Numbers, continued Some typical decibel values: 70 dB Vacuum cleaner, hair dryer 80 dB City traffic, garbage disposal 90 dB Subway, motorcycle, lawn mower 100 dB Chain saw, pneumatic drill 120 dB Rock concert in front of speakers, thunderclap 130 dB Pain threshold 140 dB Gunshot blast, jet plane 180 dB Rocket launching
Intensity Interactions Perceived loudness depends on frequency, as well as amplitude. Mid-range frequencies sound louder than low or extremely high frequencies. 100 Hz 250 Hz 440 Hz 1000 Hz 4000 Hz Hz
An Interesting Fact Some vowels are louder than others dB of different vowels relative to (Fonagy, 1966): :0.0 [e] : -3.6 [o] : -7.2 [i] : -9.7 [u] : Why?
Another Interesting Fact Some vowels are inherently longer than others. Data from Swedish (Elert, 1964): longshort high[i y u]140 msec95 mid low Why?
Sonority Loudness is also a highly context-dependent measure. Can vary wildly within speaker, from speaker to speaker, from room to room, and across speaking contexts. However, all things being equal, some speech sounds are louder than others. Course in Phonetics: “The sonority of a sound is its loudness relative to that of other sounds with the same length, stress and pitch.”
From Ladefoged
A Sonority Scale low vowels high vowels glides liquids nasals fricatives stops high sonority low sonority
Sonority and Syllables An old idea (e.g., Pike, 1943): syllables are organized around peaks in sonority. This is the Sonority Sequencing Principle (SSP). Example: [bæd] is a well-formed syllable in English. [æ] [b][d] high sonority low sonority
Sonority and Syllables An old idea (e.g., Pike, 1943): syllables are organized around peaks in sonority. This is the Sonority Sequencing Principle (SSP). Example: [blænd] works well, too. [æ] [l][n] [b][d] high sonority low sonority
Technical Terms [æ] [l][n] [b][d] high sonority low sonority sonority peak
Technical Terms The sonority peak forms the nucleus of the syllable. [æ] [l][n] [b][d] high sonority low sonority nucleus
Technical Terms The sonority peak forms the nucleus of the syllable. The sounds that precede the nucleus form the syllable onset. [æ] [l][n] [b][d] high sonority low sonority onset
Technical Terms The sonority peak forms the nucleus of the syllable. The sounds that precede the nucleus form the syllable onset. The sounds that follow the nucleus form the syllable coda. [æ] [l][n] [b][d] high sonority low sonority coda
Technical Terms The sonority peak forms the nucleus of the syllable. The sounds that precede the nucleus form the syllable onset. The sounds that follow the nucleus form the syllable coda. Together, the nucleus and coda form the syllable rhyme. [æ] [l][n] [b][d] high sonority low sonority rhyme
Some basic principles Onsets must rise in sonority towards the syllable peak. Examples: stop - {liquid/glide}‘play’‘quick’ fricative - {liquid/glide}‘fling’ ‘thwack’ [s] - {liquid/nasal/glide}‘slide’‘snow’‘sweet’ What onset clusters should be ruled out? Can you think of any English examples where this principle might not work?
Some basic principles Codas must drop in sonority away from the syllable peak. Examples: nasal - {fricative/stop}‘tenth’‘hand’ liquid - {fricative/nasal/stop}‘help’ ‘helm’‘heart’ fricative - stop‘test’ What coda clusters should be ruled out? Can you think of any English examples where this principle might not work?
Other Problems The Sonority Sequencing Principle doesn’t always work. How can we define a “syllable”? An alternative idea: each syllable is a “chest pulse” (Stetson, 1951) It turns out this doesn’t work, either. Chest muscles don’t necessarily contract for each syllable (Ladefoged, 1967) Any better ideas?
Interesting Patterns Check out the following words: Atlantic atrocious Americaarcade astronomyarthritic When is the first vowel a ? Is there a difference between the /t/ in ‘atrocious’ and the /t/ in ‘Atlantic’? Why?
Syllables “defined” “Syllables are necessary units in the organization and production of utterances.” (Ladefoged, 1982) The construct of a “syllable” can account for a variety of interesting phonological patterns: 1.Vowel reduction in unstressed syllables in English. 2.Fricatives and stops devoice at the end of syllables in German, Russian (and many other languages) 3.Place contrasts disappear in coda position in Japanese (and many other languages) 4.Voiceless stops are aspirated at the onset of stressed syllables in many Germanic languages.
Back to Stress Stress is a suprasegmental property that applies to whole syllables. Stressed syllables are higher in pitch (usually) Stressed syllables are longer (usually) Stressed syllables are louder (usually) Stressed syllables reflect more phonetic effort. The combination of these factors give stressed syllables more prominence than unstressed syllables.
Stress: Pitch (N) Complicating factor: pitch tends to drift downwards at the end of utterances (V)
Stress: Intensity (N) (V) Perception of stress is highly correlated with the area under the intensity curve
“Phonetic Effort” Voiceless stops are more aspirated at the onset of stressed syllables in English Vowels are often reduced to in unstressed syllables in English. There is less coarticulation across syllable boundaries in stressed syllables. X-Ray microbeam study (deJong et al., 1993); two utterances: 1. I said put the TOAST on the table, not the napkins! 2. I said PUT the toast on the table, don’t throw it!
X-ray microbeam data
Varying Levels of Stress/Prominence English has both primary and secondary stress. Example: “exploitation” vowelXXXX full vowelXXX stressXX tonic accentX
Open Questions Stress appears to be a property of whole syllables. What’s a syllable? It reflects overall phonetic effort. What’s that? Stressed syllables are louder than unstressed syllables. What’s loudness? Loudness is the easiest of these concepts to define…