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20 CHAPTER 1 Articulation and Acoustics As you can see,in all these vowel gestures,the tongue tip is down behind the lower front teeth,and the body of the tongue is domed upward.Check that this is so in your own pronunciation.You will notice that you can prolong the [h] sound and that there is no mouth movement between the [h and the following vowel;the [h is like a voiceless version of the vowel that comes after it.In the first four vowels,the highest point of the tongue is in the front of the mouth.Ac- cordingly,these vowels are called front vowels.The tongue is fairly close to the roof of the mouth for the vowel in heed (you can feel that this is so by breathing inward while holding the target position for this vowel),slightly less close for the vowel in hid (for this and most other vowels it is difficult to localize the po- sition by breathing inward;the articulators are too far apart),and lower still for the vowels in head and had.If you look in a mirror while saying the vowels in these four words,you will find that the mouth becomes progressively more open while the tongue remains in the front of the mouth.The vowel in heed is classi- fied as a high front vowel,and the vowel in had as a low front vowel.The height of the tongue for the vowels in the other words is between these two extremes, and they are therefore called mid-front vowels.The vowel in hid is a mid-high vowel,and the vowel in head is a mid-low vowel. Now try saying the vowels in father,good,food.Figure 1.12 also shows the articulatory targets for these vowels.In all three,the tongue is close to the back surface of the vocal tract.These vowels are classified as back vowels.The body of the tongue is highest in the vowel in food (which is therefore called a high back vowel)and lowest in the first vowel in father (which is therefore called a low back vowel).The vowel in good is a mid-high back vowel.The tongue may be near enough to the roof of the mouth for you to be able to feel the rush of cold air when you breathe inward while holding the position for the vowel in food. Lip gestures vary considerably in different vowels.They are generally closer together in the mid-high and high back vowels (as in good,food),though in some forms of American English this is not so.Look at the position of your lips in a mirror while you say just the vowels in heed,hid,head,had,father, good,food.You will probably find that in the last two words,there is a move- ment of the lips in addition to the movement that occurs because of the lowering and raising of the jaw.This movement is called lip rounding.It is usually most noticeable in the inward movement of the corners of the lips.Vowels may be described as being rounded (as in who'd)or unrounded (as in heed). In summary,the targets for vowel gestures can be described in terms of three factors:(1)the height of the body of the tongue;(2)the front-back position of the tongue;and(3)the degree of lip rounding.The relative positions of the highest points of the tongue are given in Figure 1.13.Say just the vowels in the words given in the figure caption and check that your tongue moves in the pat- tern described by the points.It is very difficult to become aware of the position of the tongue in vowels,but you can probably get some impression of tongue height by observing the position of your jaw while saying just the vowels in the four words heed,hid,head,had.You should also be able to feel the difference
20 CHAPTER 1 Articulation and Acoustics As you can see, in all these vowel gestures, the tongue tip is down behind the lower front teeth, and the body of the tongue is domed upward. Check that this is so in your own pronunciation. You will notice that you can prolong the [ h ] sound and that there is no mouth movement between the [ h ] and the following vowel; the [ h ] is like a voiceless version of the vowel that comes after it. In the first four vowels, the highest point of the tongue is in the front of the mouth. Accordingly, these vowels are called front vowels. The tongue is fairly close to the roof of the mouth for the vowel in heed (you can feel that this is so by breathing inward while holding the target position for this vowel), slightly less close for the vowel in hid (for this and most other vowels it is difficult to localize the position by breathing inward; the articulators are too far apart), and lower still for the vowels in head and had. If you look in a mirror while saying the vowels in these four words, you will find that the mouth becomes progressively more open while the tongue remains in the front of the mouth. The vowel in heed is classified as a high front vowel, and the vowel in had as a low front vowel. The height of the tongue for the vowels in the other words is between these two extremes, and they are therefore called mid-front vowels. The vowel in hid is a mid-high vowel, and the vowel in head is a mid-low vowel. Now try saying the vowels in father, good, food. Figure 1.12 also shows the articulatory targets for these vowels. In all three, the tongue is close to the back surface of the vocal tract. These vowels are classified as back vowels. The body of the tongue is highest in the vowel in food (which is therefore called a high back vowel) and lowest in the first vowel in father (which is therefore called a low back vowel). The vowel in good is a mid-high back vowel. The tongue may be near enough to the roof of the mouth for you to be able to feel the rush of cold air when you breathe inward while holding the position for the vowel in food. Lip gestures vary considerably in different vowels. They are generally closer together in the mid-high and high back vowels (as in good, food), though in some forms of American English this is not so. Look at the position of your lips in a mirror while you say just the vowels in heed, hid, head, had, father, good, food. You will probably find that in the last two words, there is a movement of the lips in addition to the movement that occurs because of the lowering and raising of the jaw. This movement is called lip rounding. It is usually most noticeable in the inward movement of the corners of the lips. Vowels may be described as being rounded (as in who’d) or unrounded (as in heed). In summary, the targets for vowel gestures can be described in terms of three factors: (1) the height of the body of the tongue; (2) the front–back position of the tongue; and (3) the degree of lip rounding. The relative positions of the highest points of the tongue are given in Figure 1.13. Say just the vowels in the words given in the figure caption and check that your tongue moves in the pattern described by the points. It is very difficult to become aware of the position of the tongue in vowels, but you can probably get some impression of tongue height by observing the position of your jaw while saying just the vowels in the four words heed, hid, head, had. You should also be able to feel the difference 31269_01_Ch01_pp001-032 pp2.indd Sec2:20 10/29/09 4:57:16 PM Copyright 2010 Cengage Learning, Inc. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part
The Sounds of Vowels 21 Figure 1.13 The relative positions of the highest points of the tongue in the vowels in 1 heed,2 hid,3 head,4 had,5 father,6 good,7 food. front back high 1● 2● ●7 mid ●6 3● low 4● ●5 between front and back vowels by contrasting words such as he and who.Say these words silently and concentrate on the sensations involved.You should feel the tongue going from front to back as you say he,who.You can also feel your lips becoming more rounded. As you can see from Figure 1.13,the specification of vowels in terms of the position of the highest point of the tongue is not entirely satisfactory for a number of reasons.First,the vowels classified as high do not have the same tongue height. The back high vowel (point 7)is nowhere near as high as the front vowel (point 1). Second,the so-called back vowels vary considerably in their degree of backness. Third,as you can see by looking at Figure 1.12,this kind of specification disre- gards considerable differences in the shape of the tongue in front vowels and in back vowels.Nor does it take into account the width of the pharynx,which varies considerably and is not entirely dependent on the height of the tongue in different vowels.We will discuss better ways of describing vowels in Chapters 4 and 9. THE SOUNDS OF VOWELS Studying the sounds of vowels requires a greater knowledge of acoustics than we can handle at this stage of the book.We can,however,note some compara- tively straightforward facts about vowel sounds.Vowels,like all sounds except the pure tone of a tuning fork,have complex structures.We can think of them as containing a number of different pitches simultaneously.There is the pitch at which the vowel is actually spoken,which depends on the pulses being produced by the vibrating vocal folds;and,quite separate from this,there are overtone pitches that depend on the shape of the resonating cavities of the vocal tract. These overtone pitches give the vowel its distinctive quality.We will enlarge on this notion in Chapter 8;here,we will consider briefly how one vowel is distin- guished from another by the pitches of the overtones. Normally,one cannot hear the separate overtones of a vowel as distinguish- able pitches.The only sensation of pitch is the note on which the vowel is said
The Sounds of Vowels 21 between front and back vowels by contrasting words such as he and who. Say these words silently and concentrate on the sensations involved. You should feel the tongue going from front to back as you say he, who. You can also feel your lips becoming more rounded. As you can see from Figure 1.13, the specification of vowels in terms of the position of the highest point of the tongue is not entirely satisfactory for a number of reasons. First, the vowels classified as high do not have the same tongue height. The back high vowel (point 7) is nowhere near as high as the front vowel (point 1). Second, the so-called back vowels vary considerably in their degree of backness. Third, as you can see by looking at Figure 1.12, this kind of specification disregards considerable differences in the shape of the tongue in front vowels and in back vowels. Nor does it take into account the width of the pharynx, which varies considerably and is not entirely dependent on the height of the tongue in different vowels. We will discuss better ways of describing vowels in Chapters 4 and 9. THE SOUNDS OF VOWELS Studying the sounds of vowels requires a greater knowledge of acoustics than we can handle at this stage of the book. We can, however, note some comparatively straightforward facts about vowel sounds. Vowels, like all sounds except the pure tone of a tuning fork, have complex structures. We can think of them as containing a number of different pitches simultaneously. There is the pitch at which the vowel is actually spoken, which depends on the pulses being produced by the vibrating vocal folds; and, quite separate from this, there are overtone pitches that depend on the shape of the resonating cavities of the vocal tract. These overtone pitches give the vowel its distinctive quality. We will enlarge on this notion in Chapter 8; here, we will consider briefly how one vowel is distinguished from another by the pitches of the overtones. Normally, one cannot hear the separate overtones of a vowel as distinguishable pitches. The only sensation of pitch is the note on which the vowel is said, Figure 1.13 The relative positions of the highest points of the tongue in the vowels in 1 heed, 2 hid, 3 head, 4 had, 5 father, 6 good, 7 food. 31269_01_Ch01_pp001-032 pp2.indd Sec2:21 10/29/09 4:57:16 PM Copyright 2010 Cengage Learning, Inc. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part
22 CHAPTER 1 Articulation and Acoustics which depends on the rate of vibration of the vocal folds.But there are circum- stances in which the overtones of each vowel can be heard.Try saying just the vowels in the words heed,hid,head,had,hod,hawed,hood,who'd,making all of them long vowels.Now whisper these vowels.When you whisper,the vocal folds are not vibrating,and there is no regular pitch of the voice.Nevertheless, you can hear that this set of vowels forms a series of sounds on a continuously descending pitch.What you are hearing corresponds to a group of overtones that characterize the vowels.These overtones are highest for the vowel in heed and lowest for the vowel in either hawed,hood,or who'd.Which of the three vowels is the lowest depends on your regional accent.Accents of English differ slightly in the pronunciation of these vowels.You can hear Peter Ladefoged whispering CD 1.4 these vowels on the CD. There is another way to produce something similar to this whispered pitch. Try whistling a very high note,and then the lowest note that you can.You will find that for the high note you have to have your tongue in the position for the vowel in heed,and for the low note your tongue is in the position for one of the vowels in hawed,hood,who'd.From this,it seems as if there is some kind of high pitch associated with the high front vowel in heed and a low pitch associ- ated with one of the back vowels.The lowest whistled note corresponds to the tongue and lip gestures very much like those used for the vowel in who.A good way to learn how to make a high back vowel is to whistle your lowest note pos- sible,and then add voicing. Another way of minimizing the sound of the vocal fold vibrations is to say the vowels in a very low,creaky voice.It is easiest to produce this kind of voice with a vowel such as that in had or hod.Some people can produce a creaky- voice sound in which the rate of vibration of the vocal folds is so low you can hear the individual pulsations. Try saying just the vowels in had,head,hid,heed in a creaky voice.You should be able to hear a change in pitch,although,in one sense,the pitch of all of them is just that of the low,creaky voice.When saying the vowels in the order heed,hid,head,had,you can hear a sound that steadily increases in pitch by approximately equal steps with each vowel.Now say the vowels in hod,hood, who'd in a creaky voice.These three vowels have overtones with a steadily de- creasing pitch.You can hear Peter Ladefoged saying the vowels in the words CD1.4 heed,hid,head,had,hod,hawed,hood,who'd in his British accent on the CD The first four of these vowels have a quality that clearly goes up in pitch,and the last four have a declining pitch. In summary,vowel sounds may be said on a variety of notes (voice pitches), but they are distinguished from one another by two characteristic vocal tract pitches associated with their overtones.One of them (actually the higher of the two)goes downward throughout most of the series heed,hid,head,had,hod, hawed,hood,who'd and corresponds roughly to the difference between front and back vowels.The other is low for vowels in which the tongue position is high and high for vowels in which the tongue position is low.It corresponds
22 CHAPTER 1 Articulation and Acoustics which depends on the rate of vibration of the vocal folds. But there are circumstances in which the overtones of each vowel can be heard. Try saying just the vowels in the words heed, hid, head, had, hod, hawed, hood, who’d, making all of them long vowels. Now whisper these vowels. When you whisper, the vocal folds are not vibrating, and there is no regular pitch of the voice. Nevertheless, you can hear that this set of vowels forms a series of sounds on a continuously descending pitch. What you are hearing corresponds to a group of overtones that characterize the vowels. These overtones are highest for the vowel in heed and lowest for the vowel in either hawed, hood, or who’d. Which of the three vowels is the lowest depends on your regional accent. Accents of English differ slightly in the pronunciation of these vowels. You can hear Peter Ladefoged whispering these vowels on the CD. There is another way to produce something similar to this whispered pitch. Try whistling a very high note, and then the lowest note that you can. You will find that for the high note you have to have your tongue in the position for the vowel in heed, and for the low note your tongue is in the position for one of the vowels in hawed, hood, who’d. From this, it seems as if there is some kind of high pitch associated with the high front vowel in heed and a low pitch associated with one of the back vowels. The lowest whistled note corresponds to the tongue and lip gestures very much like those used for the vowel in who. A good way to learn how to make a high back vowel is to whistle your lowest note possible, and then add voicing. Another way of minimizing the sound of the vocal fold vibrations is to say the vowels in a very low, creaky voice. It is easiest to produce this kind of voice with a vowel such as that in had or hod. Some people can produce a creakyvoice sound in which the rate of vibration of the vocal folds is so low you can hear the individual pulsations. Try saying just the vowels in had, head, hid, heed in a creaky voice. You should be able to hear a change in pitch, although, in one sense, the pitch of all of them is just that of the low, creaky voice. When saying the vowels in the order heed, hid, head, had, you can hear a sound that steadily increases in pitch by approximately equal steps with each vowel. Now say the vowels in hod, hood, who’d in a creaky voice. These three vowels have overtones with a steadily decreasing pitch. You can hear Peter Ladefoged saying the vowels in the words heed, hid, head, had, hod, hawed, hood, who’d in his British accent on the CD. The first four of these vowels have a quality that clearly goes up in pitch, and the last four have a declining pitch. In summary, vowel sounds may be said on a variety of notes (voice pitches), but they are distinguished from one another by two characteristic vocal tract pitches associated with their overtones. One of them (actually the higher of the two) goes downward throughout most of the series heed, hid, head, had, hod, hawed, hood, who’d and corresponds roughly to the difference between front and back vowels. The other is low for vowels in which the tongue position is high and high for vowels in which the tongue position is low. It corresponds CD 1.4 CD 1.4 31269_01_Ch01_pp001-032 pp2.indd Sec2:22 10/29/09 4:57:16 PM Copyright 2010 Cengage Learning, Inc. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part
Suprasegmentals 23 (inversely)to what we called vowel height in articulatory terms.These charac- teristic overtones are called the formants of the vowels,the one with the lower pitch(distinguishable in creaky voice)being called the first formant and the higher one (the one heard when whispering)the second formant. The notion of a formant (actually the second formant)distinguishing vow- els has been known for a long time.It was observed by Isaac Newton,who,in about 1665,wrote in his notebook:"The filling of a very deepe flaggon with a constant streame of beere or water sounds ye vowells in this order w,u,a,o,a, e,i,y."He was about twelve years old at the time.(The symbols used here are the best matches to the letters in Newton's handwriting in his notebook,which is in the British Museum.They probably refer to the vowels in words such as woo, hoot,foot,coat,cot,bait,bee,ye.)Fill a deep narrow glass with water (or beer!) and see if you can hear something like the second formant in the vowels in these words as the glass fills up. SUPRASEGMENTALS Vowels and consonants can be thought of as the segments of which speech is composed.Together they form the syllables that make up utterances.Super- imposed on the syllables are other features known as suprasegmentals.These include variations in stress and pitch.Variations in length are also usually con- sidered to be suprasegmental features,although they can affect single segments as well as whole syllables.We will defer detailed descriptions of the articulation and the corresponding acoustics of these aspects of speech till later in this book. Variations in stress are used in English to distinguish between a noun and a verb,as in (an)insult versus (to)insult.Say these words yourself,and check which syllable has the greater stress.Then compare similar pairs,such as (a)pervert,(to)pervert or (an)overflow,(to)overflow.(Peter Ladefoged's pro- nunciation of these words can be found on the CD.)You should find that in the CD1.5 nouns,the stress is on the first syllable,but in the verbs,it is on the last.Thus, stress can have a grammatical function in English.It can also be used for con- trastive emphasis (as in I want a red pen,not a black one).Stress in English is produced by (1)increased activity of the respiratory muscles,producing greater loudness,as well as by(2)exaggeration of consonant and vowel properties,such as vowel height and stop aspiration,and(3)exaggeration of pitch so that low pitches are lower and high pitches are higher. You can usually find where the stress occurs on a word by trying to tap with your finger in time with each syllable.It is much easier to tap on the stressed syllable.Try saying abominable and tapping first on the first syllable,then on the second,then on the third,and so on.If you say the word in your normal way, you will find it easiest to tap on the second syllable.Many people cannot tap on the first syllable without altering their normal pronunciation. Pitch changes due to variations in laryngeal activity can occur independently of stress changes.They are associated with the rate of vibration of the vocal
Suprasegmentals 23 (inversely) to what we called vowel height in articulatory terms. These characteristic overtones are called the formants of the vowels, the one with the lower pitch (distinguishable in creaky voice) being called the first formant and the higher one (the one heard when whispering) the second formant. The notion of a formant (actually the second formant) distinguishing vowels has been known for a long time. It was observed by Isaac Newton, who, in about 1665, wrote in his notebook: “The filling of a very deepe flaggon with a constant streame of beere or water sounds ye vowells in this order w, u, o, o, a, e, i, y.” He was about twelve years old at the time. (The symbols used here are the best matches to the letters in Newton’s handwriting in his notebook, which is in the British Museum. They probably refer to the vowels in words such as woo, hoot, foot, coat, cot, bait, bee, ye.) Fill a deep narrow glass with water (or beer!) and see if you can hear something like the second formant in the vowels in these words as the glass fills up. SUPRASEGMENTALS Vowels and consonants can be thought of as the segments of which speech is composed. Together they form the syllables that make up utterances. Superimposed on the syllables are other features known as suprasegmentals. These include variations in stress and pitch. Variations in length are also usually considered to be suprasegmental features, although they can affect single segments as well as whole syllables. We will defer detailed descriptions of the articulation and the corresponding acoustics of these aspects of speech till later in this book. Variations in stress are used in English to distinguish between a noun and a verb, as in (an) insult versus (to) insult. Say these words yourself, and check which syllable has the greater stress. Then compare similar pairs, such as (a) pervert, (to) pervert or (an) overflow, (to) overflow. (Peter Ladefoged’s pronunciation of these words can be found on the CD.) You should find that in the nouns, the stress is on the first syllable, but in the verbs, it is on the last. Thus, stress can have a grammatical function in English. It can also be used for contrastive emphasis (as in I want a red pen, not a black one). Stress in English is produced by (1) increased activity of the respiratory muscles, producing greater loudness, as well as by (2) exaggeration of consonant and vowel properties, such as vowel height and stop aspiration, and (3) exaggeration of pitch so that low pitches are lower and high pitches are higher. You can usually find where the stress occurs on a word by trying to tap with your finger in time with each syllable. It is much easier to tap on the stressed syllable. Try saying abominable and tapping first on the first syllable, then on the second, then on the third, and so on. If you say the word in your normal way, you will find it easiest to tap on the second syllable. Many people cannot tap on the first syllable without altering their normal pronunciation. Pitch changes due to variations in laryngeal activity can occur independently of stress changes. They are associated with the rate of vibration of the vocal CD 1.5 31269_01_Ch01_pp001-032 pp2.indd Sec2:23 10/29/09 4:57:17 PM Copyright 2010 Cengage Learning, Inc. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part
24 CHAPTER 1 Articulation and Acoustics folds.Earlier in the chapter,we called this the "voice pitch"to distinguish be- tween the characteristic overtones of vowels ("vocal tract pitches")and the rate of vocal fold vibration.Pitch of the voice is what you alter to sing different notes in a song.Because each opening and closing of the vocal folds causes a peak of air pressure in the sound wave,we can estimate the pitch of a sound by observ- ing the rate of occurrence of the peaks in the waveform.To be more exact,we can measure the frequency of the sound in this way.Frequency is a technical term for an acoustic property of a sound-namely,the number of complete rep- etitions (cycles)of a pattern of air pressure variation occurring in a second.The unit of frequency measurement is the hertz,usually abbreviated Hz.If the vocal folds make 220 complete opening and closing movements in a second,we say that the frequency of the sound is 220 Hz.The frequency of the vowel [a]shown in Figure 1.4 was 100 Hz,as the vocal fold pulses occurred every 10 ms (one- hundredth of a second). The pitch of a sound is an auditory property that enables a listener to place it on a scale going from low to high,without considering its acoustic properties.In practice,when a speech sound goes up in frequency,it also goes up in pitch.For the most part,at an introductory level of the subject,the pitch of a sound may be equated with its fundamental frequency,and,indeed,some books do not distin- guish between the two terms,using pitch for both the auditory property and the physical attribute. The pitch pattern in a sentence is known as the intonation.Listen to the intonation(the variations in the pitch of the voice)when someone says the sen- tence This is my father:(You can either say the sentences yourself,or listen to CD1.6 the recordings of it on the CD.)Try to find out which syllable has the highest pitch and which the lowest.In most people's speech,the highest pitch will oc- cur on the first syllable of father and the lowest on the second,the last syllable in the sentence.Now observe the pitch changes in the question Is this your father?In this sentence,the first syllable of father is usually on a lower pitch than the last syllable.In English,it is even possible to change the meaning of a sentence such as That's a cat from a statement to a question without altering the order of the words.If you substitute a mainly rising for a mainly falling intonation,you will produce a question spoken with an air of astonishment: That's a cat? All the suprasegmental features are characterized by the fact that they must be described in relation to other items in the same utterance.It is the relative values of pitch,length,or degree of stress of an item that are significant.You can stress one syllable as opposed to another irrespective of whether you are shouting or talking softly.Children can also use the same intonation patterns as adults,although their voices have a higher pitch.The absolute values are never linguistically important.But they do,of course,convey information about the speaker's age,sex,emotional state,and attitude toward the topic under discussion
24 CHAPTER 1 Articulation and Acoustics folds. Earlier in the chapter, we called this the “voice pitch” to distinguish between the characteristic overtones of vowels (“vocal tract pitches”) and the rate of vocal fold vibration. Pitch of the voice is what you alter to sing different notes in a song. Because each opening and closing of the vocal folds causes a peak of air pressure in the sound wave, we can estimate the pitch of a sound by observing the rate of occurrence of the peaks in the waveform. To be more exact, we can measure the frequency of the sound in this way. Frequency is a technical term for an acoustic property of a sound—namely, the number of complete repetitions (cycles) of a pattern of air pressure variation occurring in a second. The unit of frequency measurement is the hertz, usually abbreviated Hz. If the vocal folds make 220 complete opening and closing movements in a second, we say that the frequency of the sound is 220 Hz. The frequency of the vowel [a] shown in Figure 1.4 was 100 Hz, as the vocal fold pulses occurred every 10 ms (onehundredth of a second). The pitch of a sound is an auditory property that enables a listener to place it on a scale going from low to high, without considering its acoustic properties. In practice, when a speech sound goes up in frequency, it also goes up in pitch. For the most part, at an introductory level of the subject, the pitch of a sound may be equated with its fundamental frequency, and, indeed, some books do not distinguish between the two terms, using pitch for both the auditory property and the physical attribute. The pitch pattern in a sentence is known as the intonation. Listen to the intonation (the variations in the pitch of the voice) when someone says the sentence This is my father. (You can either say the sentences yourself, or listen to the recordings of it on the CD.) Try to find out which syllable has the highest pitch and which the lowest. In most people’s speech, the highest pitch will occur on the first syllable of father and the lowest on the second, the last syllable in the sentence. Now observe the pitch changes in the question Is this your father? In this sentence, the first syllable of father is usually on a lower pitch than the last syllable. In English, it is even possible to change the meaning of a sentence such as That’s a cat from a statement to a question without altering the order of the words. If you substitute a mainly rising for a mainly falling intonation, you will produce a question spoken with an air of astonishment: That’s a cat? All the suprasegmental features are characterized by the fact that they must be described in relation to other items in the same utterance. It is the relative values of pitch, length, or degree of stress of an item that are significant. You can stress one syllable as opposed to another irrespective of whether you are shouting or talking softly. Children can also use the same intonation patterns as adults, although their voices have a higher pitch. The absolute values are never linguistically important. But they do, of course, convey information about the speaker’s age, sex, emotional state, and attitude toward the topic under discussion. CD 1.6 31269_01_Ch01_pp001-032 pp2.indd Sec2:24 10/29/09 4:57:17 PM Copyright 2010 Cengage Learning, Inc. All Rights Reserved. May not be copied, scanned, or duplicated, in whole or in part
