A. CONSONANTS
1. DEFINITIONS
- "In a phonetic
description, we distinguish vowels
from consonants in terms of how they are articulated in the
vocal tract, and the associated patterns of acoustic energy."
(David Crystal, How Language Works. Overlook Press, 2006) - A speech sound that's not a vowel; a letter of the alphabet that represents a speech sound produced by a partial or complete obstruction of the air stream by a constriction of the speech organs
- "There are
21 consonant letters in the written alphabet (B, C, D, F, G, H, J,
K, L, M, N, P, Q, R, S, T, V, W, X, Y, Z), and there are 24 consonant
sounds in most English accents. Because of the erratic history of English spelling,
there is no neat one-to-one correlation between letters and sounds."
(David Crystal, The Cambridge Encyclopedia of the English Language. Cambridge University Press, 2003) - "The 24
usual consonants occur in the following words, at the beginning
unless otherwise specified: pale, tale, kale, bale, dale, gale, chain,
Jane, fail, thin, sale, shale, hale, vale, this, zoo; (in the middle
of) measure, mail, nail; (at the end of) sing, lay, rail, wail,
Yale. Not one of these consonants is spelled in a completely
consistent way in English, and some of them are spelled very oddly and
inconsistently indeed. Note that our alphabet has no single letters for
spelling the consonants in chain, thin, shale, this, measure, and sing.
Those letters that are commonly used for spelling consonants may be called
consonant letters, but calling them consonants is loose and
misleading."
(R.L. Trask, Mind the Gaffe! Harper, 2006)
2
2. CLASSIFICATION
We classify
consonants along three major dimensions:
• place of articulation
place of articulation dimension specifies where in the
vocal tract the constriction is
• manner of articulation
manner of articulation parameter
specifies whether the vocal folds are vibrating.
• voicing
voicing dimension is essentially everything else: how narrow the constriction is,
whether air is flowing through the nose, and whether the tongue is dropped down
on one side. In this section consonants
classified as either voiced or voiceless. In articulating a voiced consonant,
the vocal cords are vibrating. In articulating an unvoiced consonant, the vocal
cords are not vibrating.
3
B. EXAMPLES
[p] : pen, top
[b] : back, job
[t] : time, bit
[d] : dog, bad
[k] : cat, pick
[ɡ] : go, bag
[tʃ] : check, pitch
[dʒ] : jam, age
[m] : miss, climb
[n] : need, know
[ŋ] : sing, long
[f] : find, off
[v] : view, save
[θ] : think, bath
[ð] : this, with
[s] : see, police
[z] : zero, please
[ʃ] : ship, station
[ʒ] : measure, television
[r] : right, wrong
[j] : yes, year
[w] : wet, queen
[l] : like, feel
[h] : head, whole
4
C. CLOSING
Consonant is a speech sound that's not a vowel, a
letter of the alphabet that represents a speech sound produced by a partial or
complete obstruction of the air stream by a constriction of the speech organs.
We classify consonants along three major dimensions:
The place of articulation
dimension specifies where in the vocal tract the constriction is. The voicing parameter specifies whether
the vocal folds are vibrating. All consonants classified as either voiced or
voiceless. In articulating a voiced consonant, the vocal cords are vibrating.
(The vibration may easily be felt by gripping the larynx--the "Adam's
apple"--between the fingers and the thumb while articulating the
consonant.) In articulating an unvoiced consonant, the vocal cords are not
vibrating. The manner of articulation
dimesion is essentially everything else: how narrow the constriction is,
whether air is flowing through the nose, and whether the tongue is dropped down
on one side.
5
BIBLIOGRAPHY
6
ENCLOSURE
The Ways of Producing Consonants
- Place of Articulation
The place of articulation (or
POA) of a consonant specifies where in the vocal tract the narrowing occurs.
From front to back, the POAs that English uses are:
Bilabial
In a bilabial consonant, the lower and upper lips approach or touch
each other. English [p], [b], and
[m] are bilabial stops.
The diagram to the right shows
the state of the vocal tract during a typical [p] or [b]. (An [m] would look the same, but
with the velum lowered to let out through the nasal passages.)
The sound [w]
involves two constrictions of the vocal tract made simultaneously. One of them
is lip rounding, which you can think of as a bilabial approximant.
Labiodental
In a labiodental
consonant, the lower lip approaches or touches the upper teeth. English [f] and [v] are bilabial fricatives.
The diagram to
the right shows the state of the vocal tract during a typical [f]
or [v].
Dental
In a dental consonant,
the tip or blade of the tongue approaches or touches the upper teeth. English [θ] and [ð] are dental fricatives.
There are actually a couple of different ways of forming these sounds: - The tongue tip can approach the back of the upper teeth, but not press against them so hard that the airflow is completely blocked.
- The blade of the tongue can touch the bottom of the upper teeth, with the tongue tip protruding between the teeth -- still leaving enough space for a turbulent airstream to escape. This kind of [θ] and [ð] is often called interdental.
The diagram to
the right shows a typical interdental [θ] or [ð].
Alveolar
In an alveolar consonant,
the tongue tip (or less often the tongue blade) approaches or touches the
alveolar ridge, the ridge immediately behind the upper teeth. The English stops
[t], [d], and [n]
are formed by completely blocking the airflow at this place of articulation.
The fricatives [s] and [z] are
also at this place of articulation, as is the lateral approximant [l].
The diagram to
the right shows the state of the vocal tract during plosive [t]
or [d].
Postalveolar
In a postalveolar
consonant, the constriction is made immediately behind the alveolar ridge. The
constriction can be made with either the tip or the blade of the tongue. The
English fricatives [ʃ] and [ʒ] are made at this POA, as are the
corresponding affricates [tʃ] and [dʒ].
The diagram to the right shows
the state of the vocal tract during the first half (the stop half) of an
affricate [tʃ] or [dʒ].
Retroflex
In a retroflex consonant,
the tongue tip is curled backward in the mouth. English [ɹ] is a
retroflex approximant -- the tongue tip is curled up toward the postalveolar
region (the area immediately behind the alveolar ridge).
Both the sounds we've called
"postalveolar" and the sounds we've called "retroflex"
involve the region behind the alveolar ridge. In fact, at least for English,
you can think of retroflexes as being a sub-type of postalveolars,
specifically, the type of postalveolars that you make by curling your tongue
tip backward.
(In fact, the retroflexes and
other postalveolars sound so similar that you can usually use either one in
English without any noticeable effect on your accent. A substantial minority
North American English speakers don't use a retroflex [ɹ], but
rather a "bunched" R -- sort of like a tongue-blade [ʒ] with an even wider opening.
Similarly, a few people use a curled-up tongue tip rather than their tongue
blades in making [ʃ] and [ʒ].)
Palatal
In a palatal consonant, the body
of the tongue approaches or touches the hard palate. English [j]
is a palatal approximant -- the tongue body approaches the hard palate, but
closely enough to create turbulence in the airstream.
Velar
In a velar consonant, the
body of the tongue approaches or touches the soft palate, or velum. English [k], [ɡ], and [ŋ] are
stops made at this POA. The [x] sound made at the end of
the German name Bach or the Scottish word loch is the voiceless
fricative made at the velar POA.
The diagram to the right shows a
typical [k] or [ɡ] --
though where exactly on the velum the tongue body hits will vary a lot
depending on the surrounding vowels.
As we have seen, one of the two
constrictions that form a [w] is a bilabial approximant.
The other is a velar approximant: the tongue body approaches the soft palate,
but does not get even as close as it does in an [x].
Glottal
The glottis is the opening
between the vocal folds. In an [h], this opening is
narrow enough to create some turbulence in the airstream flowing past the vocal
folds. For this reason, [h] is often classified as a
glottal fricative.
§
Manners of articulation
Stops
A stop consonant completely cuts off the airflow through the mouth. In the
consonants [t], [d], and [n], the tongue tip touches the alveolar ridge and
cuts off the airflow at that point. In [t] and [d], this means that there is no
airflow at all for the duration of the stop. In [n], there is no airflow
through the mouth, but there is still airflow through the nose. We distinguish
between
• nasal stops, like [n],
which involve airflow through the nose, and
• oral stops, like [t] and
[d], which do not.
Nasal stops are often simply called nasals. Oral stops are often called
plosives. Oral stops can be either voiced or voiceless. Nasal stops are almost
always voiced. (It is physically possible to produce a voiceless nasal stop,
but English, like most languages, does not use such sounds.)
Fricatives
In the stop [t], the tongue tip touches the alveolar ridge and cuts off the
airflow. In [s], the tongue tip approaches the alveolar ridge but doesn't quite
touch it. There is still enough of an opening for airflow to continue, but the
opening is narrow enough that it causes the escaping air to become turbulent
(hence the hissing sound of the [s]). In a fricative consonant, the
articulators involved in the constriction approach get close enough to each
other to create a turbluent airstream. The fricatives of English are [f], [v],
[θ], [ð], [s], [z], [ʃ], and [ʒ].
Approximants
In an approximant, the articulators involved in the constriction are
further apart still than they are for a fricative. The articulators are still
closer to each other than when the vocal tract is in its neutral position, but
they are not even close enough to cause the air passing between them to become
turbulent. The approximants of English are [w], [j], [ɹ], and [l].
Affricates
An affricate is a single sound composed of a stop portion and a fricative
portion. In English [tʃ], the airflow is first interuppted by a stop which is
very similar to [t] (though made a bit further back). But instead of finishing
the articulation quickly and moving directly into the next sound, the tongue
pulls away from the stop slowly, so that there is a period of time immediately
after the stop where the constriction is narrow enough to cause a turbulent
airstream. In [tʃ], the period of turbulent airstream following the stop
portion is the same as the fricative [ʃ]. English [dʒ] is an affricate like
[tʃ], but voiced.
Laterals
Pay attention to what you are doing with your tongue when you say the first
consonant of [lif] leaf. Your tongue tip is touching your alveolar ridge (or
perhaps your upper teeth), but this doesn't make [l] a stop. Air is still
flowing during an [l] because the side of your tongue has dropped down and left
an opening. (Some people drop down the right side of their tongue during an
[l]; others drop down the left; a few drop down both sides.) Sounds which
involve airflow around the side of the tongue are called laterals. Sounds which
are not lateral are called central.
[l] is the only lateral in English. The other sounds of Englihs, like most
of the sounds of the world's languages, are central.
More specifically, [l] is a lateral approximant. The opening left at the
side of the tongue is wide enough that the air flowing through does not become
turbulent.
§
Voicing
The vocal folds may be held against each other at just the right tension so
that the air flowing past them from the lungs will cause them to vibrate
against each other. We call this process voicing. Sounds which are made with
vocal fold vibration are said to be voiced. Sounds made without vocal fold
vibration are said to be voiceless.
There are several pairs of sounds in English which differ only in voicing
-- that is, the two sounds have identical places and manners of articulation,
but one has vocal fold vibration and the other doesn't. The [θ] of thigh and
the [ð] of thy are one such pair. The others are:
|
voiceless
|
voiced
|
|
[p]
|
[b]
|
|
[t]
|
[d]
|
|
[k]
|
[ɡ]
|
|
[f]
|
[v]
|
|
[θ]
|
[ð]
|
|
[s]
|
[z]
|
|
[ʃ]
|
[ʒ]
|
|
[tʃ]
|
[dʒ]
|
The other sounds of English do not come in voiced/voiceless pairs. [h] is
voicess, and has no voiced counterpart. The other English consonants are all
voiced: [ɹ], [l], [w], [j], [m], [n], and [ŋ]. This does not mean that it is
physically impossible to say a sound that is exactly like, for example, an [n]
except without vocal fold vibration. It is simply that English has chosen not
to use such sounds in its set of distinctive sounds. (It is possible even in
English for one of these sounds to become voiceless under the influence of its
neighbours, but this will never change the meaning of the word.)
Summary of English consonants
|
[p]
|
voiceless
|
bilabial
|
plosive
|
|
[b]
|
voiced
|
bilabial
|
plosive
|
|
[t]
|
voiceless
|
alveolar
|
plosive
|
|
[d]
|
voiced
|
alveolar
|
plosive
|
|
[k]
|
voiceless
|
velar
|
plosive
|
|
[ɡ]
|
voiced
|
velar
|
plosive
|
|
[tʃ]
|
voiceless
|
postalveolar
|
affricate
|
|
[dʒ]
|
voiced
|
postalveolar
|
affricate
|
|
[m]
|
voiced
|
bilabial
|
nasal
|
|
[n]
|
voiced
|
alveolar
|
nasal
|
|
[ŋ]
|
voiced
|
velar
|
nasal
|
|
[f]
|
voiceless
|
labiodental
|
fricative
|
|
[v]
|
voiced
|
labiodental
|
fricative
|
|
[θ]
|
voiceless
|
dental
|
fricative
|
|
[ð]
|
voiced
|
dental
|
fricative
|
|
[s]
|
voiceless
|
alveolar
|
fricative
|
|
[z]
|
voiced
|
alveolar
|
fricative
|
|
[ʃ]
|
voiceless
|
postalveolar
|
fricative
|
|
[ʒ]
|
voiced
|
postalveolar
|
fricative
|
|
[ɹ]
|
voiced
|
retroflex
|
approximant
|
|
[j]
|
voiced
|
palatal
|
approximant
|
|
[w]
|
voiced
|
labial
+ velar
|
approximant
|
|
[l]
|
voiced
|
alveolar
|
lateral
approximant
|
|
[h]
|
voiceless
|
glottal
|
fricative
|
