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Step 1: Memorize IPA - practice quiz today - real quiz on Tuesday (over consonants)!. Phonology is about looking for patterns and arguing your assessment of those patterns (be clear, orderly and logical) Course calendar may change depending on you HW1 due Tues 1/17 – practice for Quiz
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Step 1: Memorize IPA - practice quiz today - real quiz on Tuesday (over consonants)! Phonology is about looking for patterns and arguing your assessment of those patterns (be clear, orderly and logical) Course calendar may change depending on you HW1 due Tues 1/17 – practice for Quiz Quiz 1 is on Tues 1/17; Quiz 2 on Thurs 1/19 About me, you and this course. Webpage: web.pdx.edu/~connjc
Ch2 – Phonemic Analysis • Phonology - the organization of sound system of a language – includes how sounds vary within contexts, the sequencing and distribution of sounds, and it is interfaced with other aspects of grammar like syntax and morphology. • Phonemic distinction - a phonetic difference is meaningful • Phonemes = the minimal units that serve to distinguish words with each other (p. 20)
Ch2 – Phonemic Analysis • Looking for meaningful contrast between sounds • (distinctive sounds, sounds in opposition) = phonemes • Minimal Pairs - 2 forms with distinct meanings that differ by only 1 segment found in the same position in each form • Like 2 words that rhyme (minimal pairs test for consonants) • sip and zip show a meaningful difference between the segments [s] and [z] • Because of this minimal pair, we can say for sure that /s/ and /z/ are separate phonemes • Can also use minimal triplet or for more, minimal set
Ch2 – Phonemic Analysis • Minimal pairs is a test used to find phonemes • Phonemes - segments that contrast with each other in a particular language belong to separate phonemes • Can’t always find MP for all phonemes in all environments • only occur in certain environments in English
Ch2 – Phonemic Analysis • When 2 or more sounds never occur in the same environment then they are in complementary distribution
Ch2 – Phonemic Analysis • When 2 or more sounds never occur in the same environment then they are in complementary distribution
Ch2 – Phonemic Analysis • Allophones - When two or more segments are phonetically distinct but phonologically the same (predictable variation).
Ch2 – Phonemic Analysis • Phonetic representation - shows all allophones and all information about segments that is phonetically produced • Phonemic representation - only shows phoneme Phonemic representation /p/ Phonetic representation
Ch2 – Phonemic Analysis • English – one phoneme /p/ and allophones include [p] and [ph] Phonemic representation /p/ [p] [ph] Phonetic representation • Thai – 2 phonemes /p/ and /ph/ Phonemic representation /p/ /ph/ [p] [ph] Phonetic representation
Ch2 – Phonemic Analysis • Complementary Distribution - remember that the phoneme /p/ has 3 allophones: Environments Phonetic Environments Examples # ___ word initial ___ # word final s ___ after [s] ___ C before a consonants C ___ V between a consonant and a vowel V ___ V between two vowels V ___ # word-final after a vowel C ___ # word-final after a consonant
Ch2 – Phonemic Analysis • The component of the grammar that determines the selection of speech sounds and that governs both the sound patterns and the systematic phonetic variation found in language. • Phoneme - the idea of the sound and organizational unit for all its allophones - in yo’ head • Allophones - the phonetic realizations of the phoneme in certain phonetic environments - out yo’ mouth
Ch2 – Phonemic Analysis Yes - minimal pairs 1-7; 2-8; 3-9; 4-10 so:
Ch2 – Phonemic Analysis Phonetic Environments # ___ word initial ___ # word final s ___ after [s] o ___ e between [o] and [e] Phonetic Environments ___ C before a consonant C ___ V between a consonant and a vowel V ___ V between two vowels V ___ # word-final after a vowel C ___ # word-final after a consonant
Ch2 – Phonemic Analysis organize your data
Ch2 – Phonemic Analysis Organize your data! = Where does each sound occur? List the specific immediately preceding sound and the specific immediately following sound (don’t generalize yet!)
Ch2 – Phonemic Analysis Phonetic Environments # ___ word initial ___ # word final s ___ after [s] o ___ e between [o] and [e] Phonetic Environments ___ C before a consonant C ___ V between a consonant and a vowel V ___ V between two vowels V ___ # word-final after a vowel C ___ # word-final after a consonant
Ch2 – Phonemic Analysis Organize your data! = Where does each sound occur? List the specific immediately preceding sound and the specific immediately following sound (don’t generalize yet!) before [a], [o], [e], [o:], word initially, etc elsewhere all before [u] all before [i]
Ch2 – Phonemic Analysis • Underlying representation (UR) - the unpredictable phonological information represented in a phonemic representation (green folders) • Surface representations (PR) - the phonetic representations (manila folders) • We use rules (formalized phonological processes) to derive the PR from the UR
Ch2 – Phonemic Analysis • The text talks about /eI/ shortening – that the vowel is shorter before voiceless consonants. See data on p. 22 for more details. Everyone understand this?
Ch2 – Phonemic Analysis • We use rules (formalized phonological processes) to derive the PR from the UR • Phonological rules are: • language specific – not all languages follow the same rules (not all langs have shorter vowels before voiceless consonants) • Productive – extend to novel cases – If new word create in Eng, vake, would follow shortening rule • Give rise to well-formedness intuitions – violations are sensed intuitively • Untaught – not something we learn through direct instruction, but rather intuitively • Form part of unconscious knowledge – these are rules we follow but don’t know we follow – why we don’t necessarily know that there is a shorter vowel before voiceless consonants
Ch2 – Phonemic Analysis • Basically, based on the distribution of sounds, we can say that these sounds are in complementary distribution. All of the allophones except 1 will be predictable (they will occur in a predictable environment – usually due to assimilation or something like that). The 1 allophone that is NOT predictable we call elsewhere. This way, we can use that as the phoneme (the least predictable allophone) and write a rule do derive other allophones.
Ch2 – Phonemic Analysis • Think about Japanese data – we could say that one of the affricates is the phoneme, and we would have to write a very messy rule to predict where its allophone of [t] would occur! • We are going backwards from the data and based on the distribution and patterning of sounds, we are theorizing that certain sounds are organized under 1 unit (a phoneme) and there are rules to predict its occurrence
Ch2 – Phonemic Analysis • Formalizing phonological rules: the first step is to be able to state in prose and use a simplified features system • Look at the data for /l/ in Eng on p. 25 (below too). Everyone understand the analysis?
Ch2 – Phonemic Analysis • Now we can come up with rules to derive the non-elsewhere allophones. See list of rules on p. 29 and below • Note that some use ___ # to indicate word final while text uses ___ ]word
Ch2 – Phonemic Analysis • Now look at derivations on p. 30 (below). Need to run all possible /l/ instances through all rules to make sure that the rule applies when it does and it doesn’t apply incorrectly
Ch2 – Phonemic Analysis • Minimal pair vs. near minimal pair. Minimal Pair sip and zip show a meaningful difference between the segments [s] and [z] Near Minimal Pair author and either show a meaningful difference between the segments • However, if we are trying to find allophones of 1 phoneme, then a near minimal pair could include words where the 2 sounds in question are just in the same environment but not necessarily a minimal pair – like tether and pleasure
Ch2 – Phonemic Analysis • It is due to phonology and organization of sounds that can differ between languages rather than the sounds themselves. Compare Spanish and English.
Ch2 – Phonemic Analysis • It is due to phonology and organization of sounds that can differ between languages rather than the sounds themselves. Compare Spanish and English.
Ch2 – Phonemic Analysis • It is due to phonology and organization of sounds that can differ between languages rather than the sounds themselves. Compare Spanish and English. • Looking at the 4 sounds involved – here are how they are phonetically related.
Ch2 – Phonemic Analysis • It is due to phonology and organization of sounds that can differ between languages rather than the sounds themselves. Compare Spanish and English. • Looking at the 4 sounds involved – here are how they are phonologically different in the 2 languages.
Ch2 – Phonemic Analysis • Massai data - we notice that there can be complementary distribution identified for 3 sounds belonging to 1 phoneme for 3 different phonemes. Notice that the same rule can be applied to all the different allophones and that this is a more general process due to natural classes.
Ch2 – Phonemic Analysis • Natural class of sounds is defined as any complete set of sounds in a given language that share the same value for a feature or set of features. (p. 43) Note that it needs to be all sounds possible for that language – they will usually behave the same (share phonological rules).
Ch2 – Phonemic Analysis • Minimal pair vs. near minimal pair. Minimal Pair sip and zip show a meaningful difference between the segments [s] and [z] Near Minimal Pair author and either show a meaningful difference between the segments • However, if we are trying to find allophones of 1 phoneme, then a near minimal pair could include words where the 2 sounds in question are just in the same environment but not necessarily a minimal pair – like tether and pleasure
Ch2 – Phonemic Analysis • Practice with Phonemic analysis in class exercises - groups
Ch2 – Phonemic Analysis • Practice with Phonemic analysis in class exercises - groups
Ch2 – Phonemic Analysis • Added slide!
[fo nEkst taIm]: Keep on Ch 2 /Start Ch 3 Remember Quizzes on IPA next week and HW1 due on Tuesday!