Introduction to Linguistic Theory PDF
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Adam Szczegielniak
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This document provides an introduction to linguistic theory with a focus on phonetics. It explores the sounds of language, including articulatory phonetics and the phonetic alphabet. Examples of the sounds are also given.
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01:615:201 Introduction to Linguistic Theory Adam Szczegielniak Phonetics: The Sounds of Language Copyright...
01:615:201 Introduction to Linguistic Theory Adam Szczegielniak Phonetics: The Sounds of Language Copyright in part : Cengage learning Sound Segments Knowing a language includes knowing the sounds of that language Phonetics is the study of speech sounds We are able to segment a continuous stream of speech into distinct parts and recognize the parts in other words Everyone who knows a language knows how to segment sentences into words and words into sounds Identity of Speech Sounds Our linguistic knowledge allows us to ignore nonlinguistic differences in speech (such as individual pitch levels, rates of speed, coughs) We are capable of making sounds that are not speech sounds in English but are in other languages – The click tsk that signals disapproval in English is a speech sound in languages such as Xhosa and Zulu where it is combined with other sounds just like t or k is in English Identity of Speech Sounds The science of phonetics aims to describe all the sounds of all the world’s languages – Acoustic phonetics: focuses on the physical properties of the sounds of language – Auditory phonetics: focuses on how listeners perceive the sounds of language – Articulatory phonetics: focuses on how the vocal tract produces the sounds of language The Phonetic Alphabet Spelling, or orthography, does not consistently represent the sounds of language Some problems with ordinary spelling: – 1. The same sound may be represented by many letters or combination of letters: he people key believe seize machine Caesar seas see amoeba – 2. The same letter may represent a variety of sounds: father village badly made many The Phonetic Alphabet – 3. A combination of letters may represent a single sound shoot character Thomas either physics rough coat deal – 4. A single letter may represent a combination of sounds xerox The Phonetic Alphabet – 4. Some letters in a word may not be pronounced at all autumn sword resign pterodactyl lamb corps psychology write knot – 5. There may be no letter to represent a sound that occurs in a word cute use The Phonetic Alphabet In 1888 the International Phonetic Alphabet (IPA) was invented in order to have a system in which there was a one- to-one correspondence between each sound in language and each phonetic symbol Someone who knows the IPA knows how to pronounce any word in any language The Phonetic Alphabet Dialectal and individual differences affect pronunciation, but the sounds of English are: The Phonetic Alphabet Using IPA symbols, we can now represent the pronunciation of words unambiguously: Articulatory Phonetics Most speech sounds are produced by pushing air through the vocal cords – Glottis = the opening between the vocal cords – Larynx = ‘voice box’ – Pharynx = tubular part of the throat above the larynx – Oral cavity = mouth – Nasal cavity = nose and the passages connecting it to the throat and sinuses Consonants: Place of Articulation Consonants are sounds produced with some restriction or closure in the vocal tract Consonants are classified based in part on where in the vocal tract the airflow is being restricted (the place of articulation) The major places of articulation are: bilabial, labiodental, interdental, alveolar, palatal, velar, uvular, and glottal Consonants: Place of Articulation © Cengage Learning Consonants: Place of Ar0cula0on Bilabials: [p] [b] [m] – Produced by bringing both lips together Labiodentals: [f] [v] – Produced by touching the bo=om lip to the upper teeth Interdentals [θ] [ð] – Produced by pu@ng the 0p of the tongue between the teeth Consonants: Place of Articulation Alveolars: [t] [d] [n] [s] [z] [l] [r] – All of these are produced by raising the tongue to the alveolar ridge in some way [t, d, n]: produced by the tip of the tongue touching the alveolar ridge (or just in front of it) [s, z]: produced with the sides of the front of the tongue raised but the tip lowered to allow air to escape [l]: the tongue tip is raised while the rest of the tongue remains down so air can escape over the sides of the tongue (thus [l] is a lateral sound) [r]: air escapes through the central part of the mouth; either the tip of the tongue is curled back behind the alveolar ridge or the top of the tongue is bunched up behind the alveolar ridge Consonants: Place of Ar0cula0on Palatals: [ʃ] [ʒ] [ʧ] [ʤ][ʝ] – Produced by raising the front part of the tongue to the palate Velars: [k] [g] [ŋ] – Produced by raising the back of the tongue to the soI palate or velum Uvulars: [ʀ] [q] [ɢ] – Produced by raising the back of the tongue to the uvula Glo5als: [h] [Ɂ] – Produced by restric0ng the airflow through the open glo@s ([h]) or by stopping the air completely at the glo@s (a glo5al stop: [Ɂ]) Consonants: Manner of Articulation The manner of articulation is the way the airstream is affected as it flows from the lungs and out of the mouth and nose Voiceless sounds are those produced with the vocal cords apart so the air flows freely through the glottis Voiced sounds are those produced when the vocal cords are together and vibrate as air passes through Consonants: Manner of Ar0cula0on The voiced/voiceless dis0nc0on is important in English because it helps us dis0nguish words like: rope/robe fine/vine seal/zeal [rop]/[rob] [faɪn]/[vaɪn] [sil]/[zil] But some voiceless sounds can be further dis0nguished as aspirated or unaspirated aspirated unaspirated pool [phul] spool [spul] tale [thel] stale [stel] kale [khel] scale [skel] Consonants: Manner of Articulation Oral sounds are those produced with the velum raised to prevent air from escaping out the nose Nasal sounds are those produced with the velum lowered to allow air to escape out the nose So far we have three ways of classifying sounds based on phonetic features: by voicing, by place of articulation, and by nasalization – [p] is a voiceless, bilabial, oral sound – [n] is a voiced, alveolar, nasal sound Consonants: Manner of Ar0cula0on Stops: [p] [b] [m] [t] [d] [n] [k] [g] [ŋ] [ʧ][ʤ] [Ɂ] – Produced by completely stopping the air flow in the oral cavity for a frac0on of a second All other sounds are con;nuants, meaning that the airflow is con0nuous through the oral cavity Frica;ves: [f] [v] [θ] [ð] [s] [z] [ʃ] [ʒ] [x] [ɣ] [h] – Produced by severely obstruc0ng the airflow so as to cause fric0on Consonants: Manner of Ar0cula0on Affricates: [ʧ] [ʤ] – Produced by a stop closure that is released with a lot of fric0on Liquids: [l] [r] – Produced by causing some obstruc0on of the airstream in the mouth, but not enough to cause any real fric0on Glides: [j] [w] – Produced with very li=le obstruc0on of the airstream and are always followed by a vowel Consonants: Manner of Ar0cula0on Approximants: [w] [j] [r] [l] – Some0mes liquids and glides are put together into one category because the ar0culators approximate a fric0onal closeness but do not actually cause fric0on Trills and flaps: [r]* [ɾ] – Trills are produced by rapidly vibra0ng an ar0culator – Flaps are produced by a flick of the tongue against the alveolar ridge Clicks: – Produced by moving air in the mouth between various ar0culators – The disapproving sound tsk in English is a consonant in Zulu and some other southern African languages – The lateral click used to encourage a horse in English is a consonant in Xhosa *The textbook uses [r] to represent the central liquid as in the word ready rather than as a trill Vowels Vowels are classified by how high or low the tongue is, if the tongue is in the front or back of the mouth, and whether or not the lips are rounded High vowels: [i] [ɪ] [u] [ʊ] Mid vowels: [e] [ɛ] [o] [ə] [ʌ] [ɔ] Low vowels: [æ] [a] Front vowels: [i] [ɪ] [e] [ɛ] [æ] Central vowels: [ə] [ʌ] Back vowels: [u] [ɔ] [o] [æ] [a] Vowels © Cengage Learning Vowels Round vowels: [u] [ʊ] [o] [ɔ] – Produced by rounding the lips – English has only back round vowels, but other languages such as French and Swedish have front round vowels Diphthongs: [aɪ] [aʊ] [ɔɪ] – A sequence of two vowel sounds (as opposed to the monophthongs we have looked at so far) Nasaliza;on: – Vowels can also be pronounced with a lowered velum, allowing air to pass through the nose – In English, speakers nasalize vowels before a nasal sound, such as in the words beam, bean, and bingo – The nasaliza0on is represented by a diacri0c, an extra mark placed with the symbol: Vowels Tense vowels: – Are produced with greater tension in the tongue – May occur at the end of words Lax vowels: – Are produced with less tongue tension – May not occur at the end of words Vowels Major Phonetic Classes Noncontinuants: the airstream is totally obstructed in the oral cavity – Stops and affricates Continuants: the airstream flows continuously out of the mouth – All other consonants and vowels Obstruents: the airstream has partial or full obstruction – Non-nasal stops, fricatives, and affricates Sonorants: air resonates in the nasal or oral cavities – Vowels, nasal stops, liquids, and glides Major Phone0c Classes: Consonantal Consonantal: there is some restric0on of the airflow during ar0cula0on – All consonants except glides Consonantal sounds can be further subdivided: – Labials: [p] [b] [m] [f] [v] [w] [ʍ] Ar0culated with the lips – Coronals: [θ] [ð] [t] [d] [n] [s] [z] [ʃ] [ʒ] [ʧ][ʤ] [l] [r] Ar0culated by raising the tongue blade Major Phone0c Classes Consonantal categories cont.: – Anteriors: [p] [b] [m] [f] [v] [θ] [ð] [t] [d] [n] [s] [z] Produced in the front part of the mouth (from the alveolar area forward) – Sibilants: [s] [z] ] [ʃ] [ʒ] [ʧ][ʤ] Produced with a lot of fric0on that causes a hissing sound, which is a mixture of high-‐frequency sounds Syllabic Sounds: sounds that can func0on as the core of a syllable – Vowels, liquids, and nasals Prosodic Features Prosodic, or suprasegmental features of sounds, such as length, stress and pitch, are features above the segmental values such as place and manner of ar0cula0on Length: in some languages, such as Japanese, the length of a consonant or a vowel can change the meaning of a word: – biru [biru] “building” biiru [biːru] “beer” – saki [saki] “ahead” sakki [sakːi] “before” Prosodic Features Stress: stressed syllables are louder, slightly higher in pitch, and somewhat longer than unstressed syllables – The noun digest has the stress on the first syllable – The verb digest has the stress on the second syllable – English is a stress-timed language, meaning that at least one syllable is stressed in an English word French functions differently, so when English speakers learn French they put stress on certain syllables which contributes to their foreign accent Tone and Intona0on Tone languages are languages that use pitch to contrast the meaning of words For example, in Thai, the string of sounds [naː] can be said with 5 different pitches and can thus have 5 different meanings: Tone and Intonation Intonation languages (like English) have varied pitch contour across an utterance, but pitch is not used to distinguish words – However, intonation may affect the meaning of a whole sentence: John is here said with falling intonation is a statement John is here said with rising intonation is a question Phonetics of Signed Languages Signs can be broken down into segmental features similar to the phonetic features of speech sounds (such as place and manner of articulation) – And just like spoken languages, signed languages of the world vary in these features – Signs are formed by three major features: 1. The configuration of the hand (handshape) 2. The movement of the hand and arm towards or away from the body 3. The location of the hand in signing space Phonetics of Signed Languages The configuration of the hand (handshape) The movement of the hand and arm The location of the hand in signing space