Four
When we speak , there is a continuous movement such organs as the tongue,
the velum (soft palate), the lips and the lungs. We put spaces between
individual words in the written medium but there are no similar spaces in
speech. Words are linked together in speech and are normally perceived by one
who does not know the language (or by a machine) as an interrupted stream of
sound.
The organs of
speech
Fig 1: The organs of speech
Fig 1 shows the
main organs of speech: the jaw, the lips, the teeth, the teeth ridge (usually
called the alveolar ridge), the tongue, the hard palate, the soft palate (the
velum), the uvula, the pharynx, the larynx, and the vocal cords.
The mobile
organs are the lower jaw, the lips, the tongue, the velum, the uvula, the
pharynnx and the vocal cords and, although it is possible to blearn to move
each of these at will, we have most control over the jaw, lips and tongue. The tongue is, of
course, a very important articulator and it can be moved into many different
places and different shapes. It is usual to divide the tongue into different
parts, though there are no clear dividing lines within the tongue. Fig. 2 shows
the tongue on a larger scale with these parts shown: tip, blade, front, back and root. (This use
of the word "front" often seems rather strange at first.)
Fig 2:
Subdivisions of the tongue
Fig 2:
Subdivisions of the tongue
The pharynx
i) The pharynx is a tube which begins just above the larynx. It is about 7
cm long in women and about 8 cm in men, and at its top end it is divided into
two, one part being the back of the mouth and the other being the beginning of
the way through the nasal cavity. If you look in your mirror with your mouth
open, you can see the back of the pharynx.
The velum or soft palate
ii) The velum or soft palate is
seen in the diagram in a position that allows air to pass through the nose and
through the mouth. Yours is probably in that position now, but often in speech
it is raised so that air cannot escape through the nose. The other important
thing about the velum is that it is one of the articulators that can be touched
by the tongue. When we make the sounds k and g the tongue is in contact with the lower side
of the velum, and we call these velar consonants.
The hard palate
iii) The hard palate
is often called the "roof of the mouth". You can feel its smooth
curved surface with your tongue.
The alveolar ridge
iv) The alveolar ridge is between the top front teeth and the hard palate.
You can feel its shape with your tongue. Its surface is really much rougher
than it feels, and is covered with little ridges. You can only see these if you
have a mirror small enough to go inside your mouth (such as those used by
dentists). Sounds made with the tongue touching here (such as t and d ) are called alveolar.
The alveolar ridge
v) The tongue is, of course, a very important articulator and it can be
moved into many different places and different shapes. It is usual to divide
the tongue into different parts, though there are no clear dividing lines
within the tongue. Fig. 2 shows the tongue on a larger scale with these parts
shown: tip, blade, front, back and root. (This use of the word "front" often seems rather
strange at first.)
Fig. 2 Sub-divisions of the tongue
The teeth (upper
and lower)
vi) The teeth (upper and lower) are usually shown in diagrams like Fig. 1
only at the front of the mouth, immediately behind the lips. This is for the
sake of a simple diagram, and you should remember that most speakers have teeth
to the sides of their mouths, back almost to the soft palate. The tongue is in
contact with the upper side teeth for many speech sounds. Sounds made with the tongue
touching the front teeth are called dental.
The lips : bilabial,
labiodental
vii) The lips are important in speech. They can be pressed together (when we
produce the sounds p
, b
), brought into contact with the teeth (as in f , v), or rounded to produce the lip-shape for vowels like uù.
Sounds in which the lips are in contact with each other are called bilabial, while those with lip-to-teeth
contact are called labiodental.
The seven articulators described
above are the main ones used in speech, but there are three other things to
remember. Firstly, the larynx could also be described as an articulator - a
very complex and independent one. Secondly, the jaws are sometimes called articulators; certainly we move the lower
jaw a lot in speaking. But the jaws are not articulators in the same way as the
others, because they cannot themselves make contact with other articulators.
Finally, although there is practically nothing that we can do with the nose and the nasal cavity, they are a very important part of our equipment for
making sounds (what is sometimes called our vocal apparatus), particularly nasal consonants such as m , n . Again, we cannot really describe the nose and the nasal
cavity as articulators in the same sense as (i) to (vii) above.
Vowels and
consonants
Vowels
Vowels are produced by a continuous airstream and all are voiced. They are classified according to height of the tongue, part of tongue involved, and position of the lips. The tongue can be high, mid, or low; and the part of the tongue used can be front, central or back. Only four vowels are produced with rounded lips and only four vowels are considered tense instead of lax. The sound /a/ would be written as a low back lax unrounded vowel. Many languages also have vowels called diphthongs, a sequence of two sounds, vowel + glide. Examples in English include oy in boy and ow in cow. In addition, vowels can be nasalized when they occur before nasal consonants. A diacritic mark [~] is placed over the vowel to show this. The vowel sounds in bee and bean are considered different because the sound in bean is nasalized.
Vowels are produced by a continuous airstream and all are voiced. They are classified according to height of the tongue, part of tongue involved, and position of the lips. The tongue can be high, mid, or low; and the part of the tongue used can be front, central or back. Only four vowels are produced with rounded lips and only four vowels are considered tense instead of lax. The sound /a/ would be written as a low back lax unrounded vowel. Many languages also have vowels called diphthongs, a sequence of two sounds, vowel + glide. Examples in English include oy in boy and ow in cow. In addition, vowels can be nasalized when they occur before nasal consonants. A diacritic mark [~] is placed over the vowel to show this. The vowel sounds in bee and bean are considered different because the sound in bean is nasalized.
Part of
Tongue
|
||||
Front
|
Central
|
Back
|
||
Tongue
Height |
High
|
i
ɪ |
u
ʊ |
|
Mid
|
e
ɛ |
ə
ʌ |
o
ɔ |
|
Low
|
æ
|
a
|
||
The bold vowels are tense, and the
italic vowels are rounded. English also includes the diphthongs: [aj] as in
bite, [aw] as in cow, and [oj] as in boy.
For the complete IPA chart with
symbols for the sounds of every human language, please visit the International
Phonetic Association's website.
And you're looking for a way to type English IPA symbols online, please visit ipa.typeit.org
Consonants
Consonants are produced as air from the lungs is pushed through the glottis (the opening between the vocal cords) and out the mouth. They are classified according to voicing, aspiration, nasal/oral sounds, places of articulation and manners of articulation. Voicing is whether the vocal folds vibrate or not. The sound /s/ is called voiceless because there is no vibration, and the sound /z/ is called voiced because the vocal folds do vibrate (you can feel on your neck if there is vibration.) Only three sounds in English have aspiration, the sounds /b/, /p/ and /t/. An extra puff of air is pushed out when these sounds begin a word or stressed syllable. Hold a piece of paper close to your mouth when saying the words pin and spin. You should notice extra air when you say pin. Aspiration is indicated in writing with a superscript h, as in /pʰ/. Nasal sounds are produced when the velum (the soft palate located in the back of the roof of the mouth) is lowered and air is passed through the nose and mouth. Oral sounds are produced when the velum is raised and air passes only through the mouth.
Consonants are produced as air from the lungs is pushed through the glottis (the opening between the vocal cords) and out the mouth. They are classified according to voicing, aspiration, nasal/oral sounds, places of articulation and manners of articulation. Voicing is whether the vocal folds vibrate or not. The sound /s/ is called voiceless because there is no vibration, and the sound /z/ is called voiced because the vocal folds do vibrate (you can feel on your neck if there is vibration.) Only three sounds in English have aspiration, the sounds /b/, /p/ and /t/. An extra puff of air is pushed out when these sounds begin a word or stressed syllable. Hold a piece of paper close to your mouth when saying the words pin and spin. You should notice extra air when you say pin. Aspiration is indicated in writing with a superscript h, as in /pʰ/. Nasal sounds are produced when the velum (the soft palate located in the back of the roof of the mouth) is lowered and air is passed through the nose and mouth. Oral sounds are produced when the velum is raised and air passes only through the mouth.
Articulation
In English ,
the most frequently used consonants are formed on o near the alveolar ridge; in
french , the favoured consonants are against the teeth; whereas in India many
sounds are made with the tip of the tongue curling towards the hard palate,
thus producing the retroflex sounds so characteristic of Indian languages. The
most frequently occuring sounds in a language help to determine the position of
the jaw, tongue, lips, and possibly even body stance when speaking. A speaker
will always sound foreign in his her pronunciation of a language if the
articulatory setting of its native speakers has not been adopted.
Manners of Articulation
Stop: obstruct airstream completely
Fricative: partial obstruction with friction
Affricate: stop airstream, then release
Liquids: partial obstruction, no friction
Glides: little or no obstruction, must occur with a vowel
Fricative: partial obstruction with friction
Affricate: stop airstream, then release
Liquids: partial obstruction, no friction
Glides: little or no obstruction, must occur with a vowel
You should practice saying the
sounds of the English alphabet to see if you can identify the places of
articulation in the mouth. The sounds are described by voicing, place and then
manner of articulation, so the sound /j/ would be called a voiced palatal glide
and the sound /s/ would be called a voiceless alveolar fricative.
Bilabial
|
Labiodental
|
Interdental
|
Alveolar
|
Palatal
|
Velar
|
Glottal
|
|
Stop (oral)
|
p
b |
t
d |
k
g |
||||
Nasal
(stop)
|
m
|
n
|
ŋ
|
||||
Fricative
|
f
v |
θ
ð |
s
z |
š
ž |
h
|
||
Affricate
|
č
ǰ |
||||||
Glide
|
ʍ
w |
j |
ʍ
w |
h
|
|||
Liquid
|
l r
|
For rows that have two consonants,
the top consonant is voiceless and the bottom consonant is voiced. Nasal stops
are all voiced, as are liquids. The sound /j/ is also voiced. If sounds are in
two places on the chart, that means they can be pronounced either way.
The
production of speech sounds:
vocal tract, articulators, articulatory phonetics.
Articulators
above the larynx
All the sounds we make when we speak
are the result of muscles contracting. The muscles in the chest that we use for
breathing produce the flow of air that is needed for almost all speech sounds;
muscles in the larynx produce many different modifications in the flow of air
from the chest to the mouth. After passing through the larynx, the air goes
through what we call the vocal tract,
which ends at the mouth and nostrils. Here the air from the lungs escapes into
the atmosphere. We have a large and complex set of muscles that can produce
changes in the shape of the vocal tract, and in order to learn how the sounds
of speech are produced it is necessary to become familiar with the different
parts of the vocal tract. These different parts are called articulators, and the study of them is called articulatory phonetics.
Fig. 1 is a diagram that is used
frequently in the study of phonetics. It represents the human head, seen from
the side, displayed as though it had been cut in half. You will need to look at
it carefully as the articulators are described, and you will often find it
useful to have a mirror and a good light placed so that you can look at the
inside of your mouth.
Major
Classes of Sounds (Distinctive Features): Continuant, Obstruent, non-continuant, sonorant sounds
All of the classes of sounds
described above can be put into more general classes that include the
patterning of sounds in the world's languages. Continuant sounds
indicate a continuous airflow, while non-continuant sounds indicate
total obstruction of the airstream. Obstruent sounds do not allow air to
escape through the nose, while sonorant sounds have a relatively free
airflow through the mouth or nose. The following table summarizes this
information:
Obstruent
|
Sonorant
|
|
Continuant
|
fricatives
|
liquids, glides, vowels
|
Non-Continuant
|
oral stops, affricates
|
nasal stops
|
Major Class Features
[+ Consonantal] consonants
[- Consonantal] vowels
[+ Consonantal] consonants
[- Consonantal] vowels
[+Sonorant] nasals, liquids, glides,
vowels
[- Sonorant] stops, fricatives, affricates (obstruents)
[- Sonorant] stops, fricatives, affricates (obstruents)
[+ Approximant] glides [j, w]
[- Approximant] everything else
[- Approximant] everything else
Voice Features
[+ Voice] voiced
[- Voice] voiceless
[+ Voice] voiced
[- Voice] voiceless
[+ Spread Glottis] aspirated [pʰ, tʰ, kʰ]
[- Spread Glottis] unaspirated
[- Spread Glottis] unaspirated
[+ Constricted Glottis] ejectives,
implosives
[- Constricted Glottis] everything else
[- Constricted Glottis] everything else
Manner Features
[+ Continuant] fricatives [f, v, s, z, š, ž, θ, ð]
[- Continuant] stops [p, b, t, d, k, g, ʔ]
[+ Continuant] fricatives [f, v, s, z, š, ž, θ, ð]
[- Continuant] stops [p, b, t, d, k, g, ʔ]
[+ Nasal] nasal consonants [m, n, ŋ]
[- Nasal] all oral consonants
[- Nasal] all oral consonants
[+ Lateral] [l]
[- Lateral] [r]
[- Lateral] [r]
[+ Delayed Release] affricates [č, ǰ]
[- Delayed Release] stops [p, b, t, d, k, g, ʔ]
[- Delayed Release] stops [p, b, t, d, k, g, ʔ]
[+ Strident] “noisy” fricatives [f,
v, s, z, š, ž]
[- Strident] [?, ð, h]
[- Strident] [?, ð, h]
Place Features
[Labial] involves lips [f, v, p, b, w]
[Labial] involves lips [f, v, p, b, w]
[Coronal] alveolar ridge to palate
[θ, ð, s, z, t, d, š, ž, n, r, l]
[+ Anterior] interdentals and true alveolars
[- Anterior] retroflex and palatals [š, ž, č, ǰ, j]
[+ Anterior] interdentals and true alveolars
[- Anterior] retroflex and palatals [š, ž, č, ǰ, j]
[Dorsal] from velum back [k, g, ŋ]
[Glottal] in larynx [h, ʔ]
Vowels
Height [± high] [± low]
Backness [± back]
Lip Rounding [± round]
Tenseness [± tense]
Height [± high] [± low]
Backness [± back]
Lip Rounding [± round]
Tenseness [± tense]
Whereas phonetics is the study of
sounds and is concerned with the production, audition and perception of of
speech sounds (called phones), phonology describes the way sounds
function within a given language and operates at the level of sound systems and
abstract sound units. Knowing the sounds of a language is only a small part of
phonology. This importance is shown by the fact that you can change one word
into another by simply changing one sound. Consider the differences between the
words time and dime. The words are identical except for the first sound. [t]
and [d] can therefore distinguish words, and are called contrasting sounds.
They are distinctive sounds in English, and all distinctive sounds are
classified as phonemes.
Places of particulation
The eight
commonest places of articulation are:
Bilabial
Labiodental
Dental
Alveolar
Palato-alveolar
Palatal
Velar
Uvular,
pharyngeal and glottal sounds occur frequently in world languages, however not
significant in English.
Places of Articulation
Bilabial: lips together
Labiodental: lower lip against front teeth
Interdental: tongue between teeth
Alveolar: tongue near alveolar ridge on roof of mouth (in between teeth and hard palate)
Palatal: tongue on hard palate
Velar: tongue near velum
Glottal: space between vocal folds
The following sound is not found in
the English language, although it is common in languages such as French and
Arabic:
Uvular: raise back of tongue to uvula (the appendage hanging down from the velum)
Uvular: raise back of tongue to uvula (the appendage hanging down from the velum)
Acoustic
Phonetics, Auditory Phonetics, Articulatory Phonetics
There are three types of the study
of the sounds of language. Acoustic Phonetics is the study of the
physical properties of sounds. Auditory Phonetics is the study of the
way listeners perceive sounds. Articulatory
Phonetics (the type this
lesson is concerned with) is the study of how the vocal tracts produce the
sounds.
The orthography (spelling) of words
in misleading, especially in English. One sound can be represented by several
different combinations of letters. For example, all of the following words
contain the same vowel sound: he, believe, Lee, Caesar,
key, amoeba, loudly, machine, people, and sea.
The following poem illustrates this fact of English humorously (note the
pronunciation of the bold words):
I take it you already know of tough and bough
and cough and dough?
Some may stumble, but not you, on hiccough, thorough, slough, and through?
So now you are ready, perhaps, to learn of less familiar traps?
Beware of heard, a dreadful word, that looks like beard, but sounds like bird.
And dead, it's said like bed, not bead; for goodness' sake, don't call it deed!
Watch out for meat and great and threat. (They rhyme with suite and straight and debt.)
A moth is not a moth in mother, nor both in bother, broth in brother.
And here is not a match for there, nor dear and fear, for bear and pear.
And then there's dose and rose and lose - just look them up - and goose and choose
And cork and work and card and ward and font and front and word and sword
And do and go, then thwart and cart, come, come! I've hardly made a start.
A dreadful language? Why man alive! I've learned to talk it when I was five.
And yet to write it, the more I tried, I hadn't learned it at fifty-five.
- Author Unknown
Some may stumble, but not you, on hiccough, thorough, slough, and through?
So now you are ready, perhaps, to learn of less familiar traps?
Beware of heard, a dreadful word, that looks like beard, but sounds like bird.
And dead, it's said like bed, not bead; for goodness' sake, don't call it deed!
Watch out for meat and great and threat. (They rhyme with suite and straight and debt.)
A moth is not a moth in mother, nor both in bother, broth in brother.
And here is not a match for there, nor dear and fear, for bear and pear.
And then there's dose and rose and lose - just look them up - and goose and choose
And cork and work and card and ward and font and front and word and sword
And do and go, then thwart and cart, come, come! I've hardly made a start.
A dreadful language? Why man alive! I've learned to talk it when I was five.
And yet to write it, the more I tried, I hadn't learned it at fifty-five.
- Author Unknown
The discrepancy between spelling and
sounds led to the formation of the International Phonetics Alphabet (IPA.)
The symbols used in this alphabet can be used to represent all sounds of all
human languages. The following is the English Phonetic alphabet. You might want
to memorize all of these symbols, as most foreign language dictionaries use the
IPA.
Phonetic
Alphabet for English Pronunciation
|
||||||||||
p
|
pill
|
d
|
dill
|
h
|
heal
|
ʌ
|
but
|
|||
b
|
bill
|
n
|
neal
|
l
|
Leaf
|
aj
|
light
|
|||
m
|
mill
|
s
|
seal
|
r
|
reef
|
ɔj
|
boy
|
|||
f
|
feel
|
z
|
zeal
|
j
|
You
|
ɪ
|
bit
|
|||
v
|
veal
|
č
|
chill
|
w
|
witch
|
ɛ
|
bet
|
|||
θ
|
thigh
|
ǰ
|
Jill
|
i
|
beet
|
ʊ
|
foot
|
|||
ð
|
thy
|
ʍ
|
which
|
e
|
bait
|
ɔ
|
awe
|
|||
š
|
shill
|
k
|
kill
|
u
|
boot
|
a
|
bar
|
|||
ž
|
azure
|
g
|
gill
|
o
|
boat
|
ə
|
sofa
|
|||
t
|
till
|
ŋ
|
ring
|
æ
|
bat
|
aw
|
cow
|
|||
Some speakers of English pronounce
the words which and witch differently, but if you pronounce both words
identically, just use w for both words. And the sounds /ʌ/ and /ə/ are pronounced the same, but the former is used in
stressed syllables, while the latter is used in unstressed syllables. This list
does not even begin to include all of the phonetic symbols though. One other
symbol is the glottal stop, ʔ which is
somewhat rare in English. Some linguists in the United States traditionally use
different symbols than the IPA symbols. These are listed below.
U.S.
|
IPA
|
|
š
|
ʃ
|
|
ž
|
ʒ
|
|
č
|
tʃ
|
|
ǰ
|
dʒ
|
|
U
|
ʊ
|
The production of any speech sound
involves the movement of air. Air is pushed through the lungs, larynx (vocal
folds) and vocal tract (the oral and nasal cavities.) Sounds produced by using
air from the lungs are called pulmonic sounds. If the air is pushed out,
it is called egressive. If the air is sucked in, it is called ingressive.
Sounds produced by ingressive airstreams are ejectives, implosives, and clicks.
These sounds are common among African and American Indian languages. The
majority of languages in the world use pulmonic egressive airstream mechanisms,
and I will present only these types of sounds in this lesson.
Key terms
Acoustic phonetics: the study of the physical properties of sounds.
Auditory phonetics: the study of the way listeners perceive sounds.
Articulatory
phonetics: (the type this lesson is concerned
with) is the study of how the vocal tracts produce the sounds.
orthography (spelling
IPA The discrepancy between spelling and sounds led to the formation
of the International Phonetics Alphabet (IPA.)
pulmonic
sounds
produced by using air from the lungs
ingressive: If the air is
sucked in,
Sounds produced by ingressive
airstreams are ejectives, implosives, and clicks.
If the air is pushed out, it is
called egressive.
If the air is sucked in, it is
called ingressive.
Sounds produced by ingressive
airstreams are ejectives, implosives, and clicks.
These sounds are common among
African and American Indian languages. The majority of languages in the world
use pulmonic egressive airstream mechanisms
|
Key terms
Consonants: produced as air from the lungs is
pushed through the glottis (the opening between the vocal cords) and out the
mouth.
They are classified according to
voicing, aspiration, nasal/oral sounds, places of articulation and manners of
articulation.
Voicing
is whether the vocal folds vibrate or not.
The sound /s/ is called voiceless
because there is no vibration, and the sound /z/ is called voiced because the
vocal folds do vibrate (you can feel on your neck if there is vibration.)
Only three sounds in English have
aspiration, the sounds /b/, /p/ and /t/. An extra puff of air is pushed out
when these sounds begin a word or stressed syllable.
Aspiration is indicated in writing
with a superscript h, as in /pʰ/.
Nasal sounds are produced when the
velum (the soft palate located in the back of the roof of the mouth) is lowered
and air is passed through the nose and mouth.
Oral sounds are produced when the
velum is raised and air passes only through the mouth.
Places of Articulation
Bilabial: lips together
Labiodental: lower lip against front teeth
Interdental: tongue between teeth
Alveolar: tongue near alveolar ridge on roof of mouth (in between teeth and hard palate)
Palatal: tongue on hard palate
Velar: tongue near velum
Glottal: space between vocal folds
The following sound is not found in
the English language, although it is common in languages such as French and
Arabic:
Uvular: raise back of tongue to uvula (the appendage hanging down from the velum)
Uvular: raise back of tongue to uvula (the appendage hanging down from the velum)
Minimal
Pairs
Minimal pairs are words with
different meanings that have the same sounds except for one. These contrasting
sounds can either be consonants or vowels. The words pin and bin are minimal
pairs because they are exactly the same except for the first sound. The words
read and rude are also exactly the same except for the vowel sound. The
examples from above, time and dime, are also minimal pairs. In effect, words
with one contrastive sound are minimal pairs. Another feature of minimal pairs
is overlapping distribution. Sounds that occur in phonetic environments that
are identical are said to be in overlapping distribution. The sounds of [ɪn] from pin and bin are in overlapping distribution because
they occur in both words. The same is true for three and through. The sounds of
[θr] is in overlapping distribution because they occur in both words as well.
Free Variation
Some words in English are pronounced differently by different speakers. This is most noticeable among American English speakers and British English speakers, as well as dialectal differences. This is evidenced in the ways neither, for example, can be pronounced. American English pronunciation is [niðər], while British English pronunciation is [najðər].
Phones and Allophones
Phonemes
are not physical sounds. They are abstract mental representations of the
phonological units of a language. Phones are considered to be any single
speech sound of which phonemes are made. Phonemes are a family of phones
regarded as a single sound and represented by the same symbol. The different
phones that are the realization of a phoneme are called allophones of
that phoneme. The use of allophones is not random, but rule-governed. No one is
taught these rules as they are learned subconsciously when the native language
is acquired. To distinguish between a phoneme and its allophones, I will use
slashes // to enclose phonemes and brackets [] to enclose allophones or phones.
For example, [i] and [ĩ] are allophones of the phoneme /i/; [ɪ] and [ɪ̃] are
allophones of the phoneme /ɪ/.
Complementary Distribution
If two sounds are allophones of the same phoneme, they are said to be in complementary distribution. These sounds cannot occur in minimal pairs and they cannot change the meaning of otherwise identical words. If you interchange the sounds, you will only change the pronunciation of the words, not the meaning. Native speakers of the language regard the two allophones as variations of the same sound. To hear this, start to say the word cool (your lips should be pursed in anticipation of /u/ sound), but then say kill instead (with your lips still pursed.) Your pronunciation of kill should sound strange because cool and kill are pronounced with different allophones of the phoneme /k/.
If two sounds are allophones of the same phoneme, they are said to be in complementary distribution. These sounds cannot occur in minimal pairs and they cannot change the meaning of otherwise identical words. If you interchange the sounds, you will only change the pronunciation of the words, not the meaning. Native speakers of the language regard the two allophones as variations of the same sound. To hear this, start to say the word cool (your lips should be pursed in anticipation of /u/ sound), but then say kill instead (with your lips still pursed.) Your pronunciation of kill should sound strange because cool and kill are pronounced with different allophones of the phoneme /k/.
Nasalized vowels are allophones of
the same phoneme in English. Take, for example, the sounds in bad and ban. The
phoneme is /æ/, however the allophones are [æ] and [æ̃]. Yet in French,
nasalized vowels are not allophones of the same phonemes. They are separate
phonemes. The words beau [bo] and bon [bõ] are not in complementary
distribution because they are minimal pairs and have contrasting sounds.
Changing the sounds changes the meaning of the words. This is just one example
of differences between languages.
Phonological Rules
Assimilation: sounds become more like neighboring sounds, allowing for ease of articulation or pronunciation; such as vowels are nasalized before nasal consonants
- Harmony: non-adjacent vowels become more similar by sharing a feature or set of features (common in Finnish)
- Gemination: sound becomes identical to an adjacent sound
- Regressive Assimilation: sound on left is the target, and sound on right is the trigger
Assimilation: sounds become more like neighboring sounds, allowing for ease of articulation or pronunciation; such as vowels are nasalized before nasal consonants
- Harmony: non-adjacent vowels become more similar by sharing a feature or set of features (common in Finnish)
- Gemination: sound becomes identical to an adjacent sound
- Regressive Assimilation: sound on left is the target, and sound on right is the trigger
Dissimilation: sounds become less
like neighboring sounds; these rules are quite rare, but one example in English
is [fɪfθ] becoming [fɪft] (/f/ and /θ/ are both fricatives, but /t/ is a stop)
Epenthesis: insertion of a sound,
e.g. Latin "homre" became Spanish "hombre"
- Prothesis: insertion of vowel sound at beginning of word
- Anaptyxis: vowel sound with predictable quality is inserted word-internally
- Paragoge: insertion of vowel sound at end of word
- Excrescence: consonant sound inserted between other consonants (also called stop-intrusion)
- Prothesis: insertion of vowel sound at beginning of word
- Anaptyxis: vowel sound with predictable quality is inserted word-internally
- Paragoge: insertion of vowel sound at end of word
- Excrescence: consonant sound inserted between other consonants (also called stop-intrusion)
Deletion: deletion of a sound; e.g.
French word-final consonants are deleted when the next word begins with a
consonant (but are retained when the following word begins with a vowel)
- Aphaeresis: vowel sound deleted at beginning of word
- Syncope: vowel sound is deleted word-internally
- Apocope: vowel sound deleted at end of word
- Aphaeresis: vowel sound deleted at beginning of word
- Syncope: vowel sound is deleted word-internally
- Apocope: vowel sound deleted at end of word
Metathesis: reordering of phonemes;
in some dialects of English, the word asked is pronounced [æks]; children's speech
shows many cases of metathesis such as aminal for animal
Lenition: consonant changes to a
weaker manner of articulation; voiced stop becomes a fricative, fricative
becomes a glide, etc.
Palatalization: sound becomes
palatal when adjacent to a front vowel Compensatory Lengthening: sound becomes
long as a result of sound loss, e.g. Latin "octo" became Italian
"otto"
Assimilation in English
An interesting observation of assimilation rules is evidenced in the formation of plurals and the past tense in English. When pluralizing nouns, the last letter is pronounced as either [s], [z], or [əz]. When forming past tenses of verbs, the -ed ending is pronounced as either [t], [d], [əd]. If you were to sort words into three columns, you would be able to tell why certain words are followed by certain sounds:
An interesting observation of assimilation rules is evidenced in the formation of plurals and the past tense in English. When pluralizing nouns, the last letter is pronounced as either [s], [z], or [əz]. When forming past tenses of verbs, the -ed ending is pronounced as either [t], [d], [əd]. If you were to sort words into three columns, you would be able to tell why certain words are followed by certain sounds:
Plural
nouns
|
Hopefully, you can determine which
consonants produce which sounds. In the nouns, /s/ is added after voiceless
consonants, and /z/ is added after voiced consonants. /əz/ is added after sibilants.
For the verbs, /t/ is added after voiceless consonants, and /d/ is added
after voiced consonants. /əd/ is added after alveolar stops. The great thing
about this is that no one ever taught you this in school. But thanks to
linguistics, you now know why there are different sounds (because of
assimiliation rules, the consonants become more like their neighboring
consonants.)
|
||||
/s/
|
/z/
|
/əz/
|
|||
cats
|
dads
|
churches
|
|||
tips
|
bibs
|
kisses
|
|||
laughs
|
dogs
|
judges
|
|||
Past
Tense
|
|||||
/t/
|
/d/
|
/əd/
|
|||
kissed
|
loved
|
patted
|
|||
washed
|
jogged
|
waded
|
|||
coughed
|
teased
|
seeded
|
|||
Writing Rules
A general phonological rule is A → B / D __ E (said: A becomes B when it occurs between D and E) Other symbols in rule writing include: C = any obstruent, V = any vowel, Ø = nothing, # = word boundary, ( ) = optional, and { } = either/or. A deletion rule is A → Ø / E __ (A is deleted when it occurs after E) and an insertion rule is Ø → A / E __ (A is inserted when it occurs after E).
A general phonological rule is A → B / D __ E (said: A becomes B when it occurs between D and E) Other symbols in rule writing include: C = any obstruent, V = any vowel, Ø = nothing, # = word boundary, ( ) = optional, and { } = either/or. A deletion rule is A → Ø / E __ (A is deleted when it occurs after E) and an insertion rule is Ø → A / E __ (A is inserted when it occurs after E).
Alpha notation is used to collapse
similar assimilation rules into one. C → [Α voice] / __ [Α voice] (An obstruent
becomes voiced when it occurs before a voiced obstruent AND an obstruent
becomes voiceless when it occurs before a voiceless obstruent.) Similarly, it
can be used for dissimilation rules too. C → [-Α voice] / __ [Α voice] (An
obstruent becomes voiced when it occurs before a voiceless obstruent AND an
obstruent becomes voiceless when it occurs before a voiced obstruent.)
Gemination rules are written as C1C2 → C2C2 (for example, pd → dd)
Syllable
Structure
There are three peaks to a syllable:
nucleus (vowel), onset (consonant before nucleus) and coda
(consonant after nucleus.) The onset and coda are both optional, meaning that a
syllable could contain a vowel and nothing else. The nucleus is required in
every syllable by definition. The order of the peaks is always onset - nucleus
- coda. All languages permit open syllables (Consonant + Vowel), but not all
languages allow closed syllables (Consonant + Vowel + Consonant). Languages
that only allow open syllables are called CV languages. In addition to not
allowing codas, some CV languages also have constraints on the number of
consonants allowed in the onset.
The sonority profile dictates that
sonority must rise to the nucleus and fall to the coda in every language. The
sonority scale (from most to least sonorous) is vowels - glides - liquids -
nasals - obstruents. Sonority must rise in the onset, but the sounds cannot be
adjacent to or share a place of articulation (except [s] in English) nor can
there be more than two consonants in the onset. This explains why English allows
some consonant combinations, but not others. For example, price [prajs] is a
well-formed syllable and word because the sonority rises in the onset (p, an
obstruent, is less sonorous than r, a liquid); however, rpice [rpajs] is not a
syllable in English because the sonority does not rise in the onset.
The Maximality Condition states that
onsets are as large as possible up to the well-formedness rules of a language.
Onsets are always preferred over codas when syllabifying words. There are also
constraints that state the maximum number of consonants between two vowels is
four; onsets and codas have two consonants maximally; and onsets and codas can
be bigger only at the edges of words.
Source: http://www.ielanguages.com/linguist.html
Questions
1.
What are the three types of the
study of the sounds of language? Explain in brief.
2. Memorize
the International Phonetics Alphabet (IPA) as
most foreign language dictionaries use the IPA.What does the production of any
speech sound involve? Explain!
4.
What are pulmonic sounds/
5.
What
are egressive and ingressive sounds?
6.
How are consonants produced? How are they classified?
7.
Why is the sound /s/ called voiceless? Why is the sound /z/ called
voiced?
8.
What
sounds in have aspiration?
9. Hold a piece of paper close to your
mouth when saying the words pin and spin. What should notice extra air when you say pin?
10.
How is aspiration indicated in
writing?
Exercises
1.
Give the correct technical terms for
the sounds made in the following ways:
(a) both lips coming together
(b) the bottom lip and top teeth
coming together(c) the tongue touching the upper
teeth ridge
(d) the tongue touching the hard
palate
(e) the tongue touching the soft
palate
2.
Give the correct technical term for
the sounds resulting from the following closures.
1. complete closure followed by slow
release of air
2. complete closure of the oral
cavity with air diverted through the nose.
3. Partial closure where the air
stream is blocked by the tip of the tongue but allowed to escape round the
sides of the tongue
4. Incomplete closure
5. Complete closure followed by a
sudden release of air
Donation
If you want to donate some money to support this blog to improve and to provide you better, please transfer to Hot Saut Halomoan, BCA A/C No. 0657065483, BRI A/C No. 092801002485537. My cellphone no is 08128573122, email: hsh_mnrg@yahoo.com.
3.
No comments:
Post a Comment