Fact-checked by Grok 2 weeks ago

Open vowel

An open vowel is a vowel sound in produced with the positioned at its lowest height in the mouth (also known as a low vowel), resulting in the most open configuration of the vocal tract and allowing unobstructed airflow without friction. In the International Phonetic Alphabet (), open vowels occupy the bottom row of the vowel chart, representing the lowest degree of vowel height among the four primary categories: close, close-mid, open-mid, and open. These vowels are typically voiced and articulated with the jaw relatively lowered and lips more spread apart compared to higher vowels, though lip rounding may vary. The classification of open vowels is based on , where tongue height determines the openness: the tongue is as far from the as possible, contrasting with close vowels like or where it is raised near the roof of the mouth. Key symbols for open vowels include (open front unrounded, as in Spanish casa), [ɑ] (open back unrounded, as in English father in many dialects), and [ɒ] (open back rounded, as in some lot). Near-open vowels, such as [æ] (as in English cat), are slightly higher but often grouped with open vowels in broader descriptions due to their low tongue position. Open vowels are phonemically significant in many languages, where they distinguish meaning through contrasts with other vowel heights; for instance, in , versus can change words entirely, while in English, variations like [æ] versus [ɛ] create minimal pairs such as bat and bet. Acoustically, open vowels exhibit high first (F1) frequencies due to the low tongue position and expanded oral cavity, aiding in their perceptual identification. They appear universally across language families but vary in inventory; for example, some Austronesian languages feature multiple open vowels, while others merge them. In linguistic analysis, open vowels are studied for their role in , dialectal shifts, and historical sound changes, such as the in English that affected open vowel realizations.

Phonetic Fundamentals

Definition of Open Vowels

Vowels are voiced sounds produced without any obstruction in the vocal tract, allowing air to flow freely from the lungs through the . Open vowels, specifically, constitute the lowest category in the vowel height scale, characterized by the positioned as low as anatomically possible in the , creating the widest possible aperture between the and the of the . This positioning maximizes the oral cavity's openness, distinguishing open vowels from higher vowels where the rises closer to the , resulting in greater . The degree of openness in vowels refers to the of the tongue relative to the , with open vowels exhibiting the lowest tongue position and thus the widest in the vocal tract during . In contrast, high vowels involve a narrower due to the tongue's elevated position, approximating a state of relative without actual obstruction. This articulatory distinction underscores open vowels' role at the extreme low end of the vowel continuum, where jaw depression is most pronounced to accommodate the lowered tongue.

Vowel Height Classification

Vowel height in the is classified using a seven-level scale that describes the vertical position of the tongue relative to the roof of the , ranging from the highest to the lowest positions. These levels are: close (also known as high), near-close, close-mid, mid, open-mid, near-open, and open (also known as low). This hierarchical system provides a standardized framework for and analysis, allowing linguists to precisely categorize sounds based on their articulatory positions. Open vowels occupy the lowest position on this scale, representing the most extreme degree of lowering and jaw opening. Subtypes include the front open unrounded , the central open unrounded [ä], and the back open unrounded [ɑ], each distinguished by additional features such as advancement (front, central, or back). The classification criteria emphasize height as the primary dimension, with open s requiring the to be positioned as low as anatomically possible while maintaining vocal tract configuration for clear articulation; jaw position complements this by being maximally open to facilitate the lowered . The modern IPA vowel height scale, with seven levels from close to open, evolved from early phonetic traditions and was influenced by Daniel Jones's Cardinal Vowel system, introduced in 1917 as a set of reference points for vowel description. Jones's system featured eight primary arranged in a trapezoidal , focusing on extreme positions to the articulatorily and perceptually, which laid the groundwork for the IPA's refined height hierarchy. IPA revisions, such as in 1989, integrated primary and secondary diagrams with lip rounding considerations.

Articulation and Acoustics

Production Mechanism

Open vowels, classified as the lowest height category in articulation, are produced by positioning the body as low as possible in the oral while maximally lowering the to create the widest possible vocal tract configuration. This low placement varies along the front-back dimension: for front open vowels such as , the is advanced toward the front of the , whereas for central or back open vowels like [ɑ] or [ɒ], it is retracted toward the pharyngeal region. The 's depression is crucial, as it physically accommodates the 's descent and expands the oral space, often involving the hyoglossus muscle to pull the downward and backward in back vowels. Lip rounding provides additional variation in open vowel production, with front and central variants typically unrounded—lips neutral or slightly spread—to maintain an open front resonator, while certain back open vowels, exemplified by the near-open back rounded [ɒ] found in some dialects of English, involve protrusion and rounding of the to narrow the labial opening and shape the posterior tract. The plays a key role in sustaining this openness by expanding through subtle advancement of the tongue root and relaxation of pharyngeal walls, which enlarges the posterior vocal tract without introducing constriction. Concurrently, the velum () is raised firmly against the nasal passage to block airflow into the , ensuring purely oral and avoiding unintended nasality during the sustained voicing. A primary articulatory challenge in open vowel lies in achieving and maintaining precise tract to prevent turbulent , which could generate and shift the sound toward an or quality rather than a smooth, resonant . This requires coordinated relaxation of the , , and pharyngeal muscles to ensure no narrowing occurs near the or , particularly in rapid speech where tension might inadvertently elevate the .

Acoustic Properties

Open vowels are characterized by elevated first formant (F1) frequencies, which are the highest among categories and serve as the primary acoustic indicator of their openness. For the prototypical open , F1 typically ranges from approximately 700 to 800 Hz in adult male speakers, reflecting the expanded pharyngeal and oral cavities that lower the position produces. The second formant (F2) frequency, in contrast, is modulated by the vowel's frontness or backness, with front open vowels exhibiting higher F2 values (often above 1200 Hz) and back open vowels showing lower F2 (around 1000-1100 Hz), further delineating their spectral positions within the vowel space. Spectral features of open vowels include relatively broad formant bandwidths for F1, typically around 50-70 Hz, attributable to the higher F1 and the acoustic effects in the large-volume oral . This broader contributes to a spectral profile with somewhat more diffuse energy distribution across harmonics compared to the sharper resonances of higher vowels, though overall intensity remains elevated due to the strong low-frequency energy concentration near the . These characteristics arise from the of a lowered body, which enlarges the resonating space and enhances low-formant prominence. In terms of temporal acoustics, open vowels exhibit longer durations than higher vowels, especially in stressed syllables, a tendency rooted in greater articulatory displacement and observed consistently across languages such as English, , and . This intrinsic lengthening effect averages 10-20% greater duration for low vowels relative to high ones under comparable prosodic conditions. Measurement of these properties relies on spectrographic analysis, where wideband spectrograms reveal the diagnostic high F1 peaks as dark bands of concentrated energy, allowing precise quantification of formant centers and bandwidths through linear predictive coding or cursor-based tracking. This technique confirms openness by the F1 elevation exceeding 600 Hz, distinguishing open vowels from mid and close counterparts.

Representation and Usage

IPA Symbols

The International Phonetic Alphabet (IPA) employs specific symbols to denote open vowels, which represent the lowest degree of vowel height. The primary symbol for the is , positioned at the bottom front of the vowel quadrilateral on the official IPA chart. For the , the diaeresis-modified [ä] is commonly used, indicating a centralized articulation of the basic ; this symbol, while not a dedicated character on the core IPA chart, is widely recognized in for its precision in distinguishing central openness. The is represented by [ɑ], a turned script a that reflects its retracted tongue position, and the uses [ɒ], an inverted stroke through o to signify lip rounding. Modifications to these symbols for near-open approximations, which are slightly higher than true open vowels, employ the lowering diacritic ̞ placed beneath the base symbol, such as [ɛ̞] for a derived from the open-mid [ɛ]. This adjusts the height without altering the primary symbol for fully open vowels, preserving the distinction between true open and transitional articulations. The historical development of these symbols traces back to the IPA's founding. In , the initial provisional alphabet introduced basic vowel notations, including for open front sounds, drawing from earlier systems like Henry Sweet's Romic alphabet. Refinements in 1899 added [ɑ] and [ä] to better capture back and central open qualities, addressing gaps in the original set. The 1921 revision further standardized [ɑ] as the open back unrounded symbol and clarified [ä]'s central role, enhancing articulatory accuracy in the second edition of L’Écriture Phonétique Internationale. By , [ɒ] was formally introduced for the . The 1989 revision, part of ongoing updates to the IPA , reaffirmed these symbols while incorporating typographic improvements for broader adoption in linguistic research. In practical usage, [ɑ] is frequently employed in broad phonetic transcriptions to represent open back unrounded vowels, particularly in languages like English where it simplifies notation for phonemically relevant sounds without finer allophonic detail. This approach prioritizes clarity in general descriptions over narrow precision.

Examples in Languages

Open vowels are realized differently across languages, serving as key phonemes in various inventories. In English, the open back unrounded vowel [ɑ] appears in "father," transcribed as [ˈfɑːðə] in (RP) and [ˈfɑðɚ] in General American (GA). In dialects, the vowel in "cat" is often a more open central , reflecting regional shifts in the TRAP . In , the open central unrounded functions as a core . For instance, in , it occurs in "" [ˈka.sa], where it contrasts phonemically with mid vowels like /e/ in words such as "mesa" [ˈme.sa], distinguishing meanings like "" from "." Similarly, in , is the default open vowel in "" [ˈpa.sta], maintaining a stable low position across syllables. These examples highlight 's role in and lexical differentiation within Romance systems. Beyond , open vowels appear in other families. In , the open back unrounded [ɑ] is evident in "appel" [ˈɑ.pəl], contributing to the language's asymmetric vowel inventory. In , a central open [ä] features in "kitāb" [kiˈtaːb], where the short /a/ and long /aː/ provide length contrasts essential for , such as distinguishing roots in words. Open vowels like these often play phonological roles by contrasting with mid vowels (e.g., /a/ vs. /e/) and appearing frequently in stressed syllables, where greater articulatory openness enhances prominence and duration. Cross-linguistically, open s rank among the most ubiquitous sounds, with the low central /a/ present in over 86% of languages according to analyses of large phonological databases like PHOIBLE, underscoring their near-universal status in human vowel systems.

References

  1. [1]
    Articulatory Phonetics | Linguistic Research - University of Sheffield
    However, if the tongue is low in the mouth when a vowel is produced, it's given the label open. + close-mid/open mid (see below). Some examples of open vowels: ...
  2. [2]
    https://www.internationalphoneticassociation.org/content/ipa-charts
  3. [3]
    [PDF] IPA, Handbook of the International Phonetic Association
    There are now four defined vowel heights: [i] and [u] are close vowels, [e] and [o] are close-mid vowels, [e] and [o] are open-mid vowels, and [a] and [a] are ...<|separator|>
  4. [4]
    OPEN VOWEL definition in American English - Collins Dictionary
    open vowel in British English​​ (ˈəʊpən ˈvaʊəl ) noun. phonetics. a vowel pronounced with the lips relatively wide apart. always.
  5. [5]
    Vowels, Vowel Formants and Vowel Modification - SingWise
    Apr 18, 2020 · The IPA prefers the terms close vowel and open vowel, respectively, which describes the jaw as being relatively closed or open. However, vowel ...Ipa Symbols For Vowels · Practical Guidelines For... · Acoustics
  6. [6]
    [PDF] HISTORICAL DEVELOPMENT OF PHONETIC VOWEL SYSTEMS
    Aug 21, 2011 · The primary Cardinal vowel quadrilateral that Jones introduced has several advantages to all earlier approaches of vowel classifications: (1) ...Missing: evolution | Show results with:evolution
  7. [7]
    [PDF] English Phonetics and Phonology - Glossary - Peter Roach
    One of the labels used for classifying vowels is open. An open vowel is one in which the tongue is low in the mouth and the jaw lowered: examples are cardinal ...
  8. [8]
    2.7 Classifying Vowels – Essentials of Linguistics - Pressbooks.pub
    The lowest vowel at the back of the mouth is [ɑ]. We don't round our lips for [ɑ], and we often drop the jaw to move the tongue low and back.
  9. [9]
    SPA3011
    Jun 18, 2001 · Low back unrounded vowel (/a/). Jaw is lowered to open the oral cavity; Tongue body is pulled down and back by the hyoglossus; The oral cavity ...<|separator|>
  10. [10]
    2.2 Articulators – Essentials of Linguistics - Pressbooks.pub
    This unit introduces the names and locations of the articulators that are used to produce the sounds of English: the tongue, lips and teeth, the alveolar ridge, ...
  11. [11]
    [PDF] English Phonetics and Phonology - Glossary - Peter Roach
    All speech sounds apart from fully-open vowels involve some narrowing (constriction) of the vocal tract, and one of the most important ways in which speech ...<|control11|><|separator|>
  12. [12]
    [PDF] Control Methods Used in a Study of the Vowels
    G. E. PETERSON AND H. L. BARNEY. 1 hid hid hed. *. А ... Averages of fundamental and formant frequencies and formant amplitudes of vowels by 76 speakers.
  13. [13]
    [PDF] SOME BASIC VOWEL FEATURES~ THEIR ARTICULATORY ...
    jaw movement takes longer time. Preliminary measurements of jaw opening show that the maximum aperture is reached later in open vowels. It may not be ...
  14. [14]
    Duration of Syllable Nuclei in English - AIP Publishing
    This study deals with the influence of preceding and following consonants on the duration of stressed vowels and diphthongs in American English.
  15. [15]
    [PDF] A Crosslinguistic Analysis of Intrinsic Vowel Duration ... - Labphon
    Across languages, we observed substantial differences in the effect of vowel height on vowel duration (see Figure 1). The effect of vowel height was significant ...
  16. [16]
    [PDF] Measuring Vowel Formants
    Jun 18, 2015 · Spectrograms together with an LPC provide a highly reliable measure of vowel formants with relatively little error, because the spectrogram ...Missing: openness | Show results with:openness
  17. [17]
    IPA i-charts (2025) - International Phonetic Association
    Where symbols appear in pairs, the one to the right represents a rounded vowel. SUPRASEGMENTALS −. ˈ. Primary stress. ˌ. Secondary stress. ː. Long. ˑ. Half-long.Missing: classification | Show results with:classification
  18. [18]
    The IPA Chart - UCLA Phonetics Lab Archive
    Ejectives ; ̽. Mid-centralized. e̽. ̝. Raised, e̝ (ɹ ̝= voiced alveolar fricative) ; ̣. Syllabic. ṇ. ̞. Lowered, e̞ (β̞ = voiced bilabial approximant) ; ̯. Non- ...Missing: definition - | Show results with:definition -
  19. [19]
    Open-mid central unrounded vowel - Wikipedia
    The IPA symbol is not the digit ⟨3⟩ or the ... It may also be used with a lowering diacritic ⟨ɜ̞⟩, to denote the near-open central unrounded vowel.
  20. [20]
    IPA historical charts - International Phonetic Association
    This document presents all versions and revisions of the International Phonetic Alphabet charts published throughout the Maître Phonétique and supplements ...
  21. [21]
    International Phonetic Alphabet (IPA) | Definition, Uses, & Chart
    Oct 8, 2025 · It was first published in 1888 and was revised several times in the 20th and 21st centuries. The International Phonetic Association is ...
  22. [22]
    [PDF] Writing a phonemic transcription - International Phonetic Association
    Phonemic or broad transcription of a passage of English is always the first question on. The IPA Certificate examination paper and constitutes a rather ...<|control11|><|separator|>
  23. [23]
    3.6 The International Phonetic Alphabet – Essentials of Linguistics ...
    One important guiding recommendation from the IPA for broad transcription is to use the typographically simplest notation that still conveys the most crucial ...
  24. [24]
    [PDF] English Transcriptions | IPA Source
    ... broad IPA transcriptions found on IPA Source as their use depends on the setting, tempo, and interpretation. Page 6. English Transcriptions–Page 6 of 12.
  25. [25]
    Phonemic (broad) transcription of Australian English
    Nov 13, 2024 · In Australian English /ɹ/ is only pronounced after vowels in certain circumstances.This is because Australian English is a non-rhotic dialect. / ...
  26. [26]
    [PDF] Pronunciation Guide to Castilian Spanish - IPA Source
    The following pronunciation guide is excerpted from the six volumes of Canciones de España—Songs of. Nineteenth-Century Spain, edited by Suzanne Rhodes Draayer, ...
  27. [27]
    Spanish Pronunciation Tips: Vowels - LanGo Institute
    Sep 27, 2019 · Spanish has five main vowel sounds: /a, e, i, o, u/. Let's next discuss the position of the tongue, the roundness of the lips, and the position of the jaw.
  28. [28]
    A complete guide to mastery of Italian vowels & diphthongs - Berlitz
    May 16, 2023 · How to pronounce the Italian vowels ; Letter, IPA, Sounds like in English ; A, a, ah (like the “a” sound in “father”) ; E (open), ε, eh (like the “ ...
  29. [29]
    appel - Wiktionary, the free dictionary
    From Middle Dutch appeel, from Old French apel. Pronunciation. IPA: /ɑˈpɛl/. Audio: Duration: 4 seconds.0:04, (file). Hyphenation: ap‧pel; Rhymes: -ɛl. Noun.Afrikaans · Dutch · French · Middle DutchMissing: vowel | Show results with:vowel
  30. [30]
    كتاب - Wiktionary, the free dictionary
    ### IPA for Arabic 'kitāb'
  31. [31]
    Brownian dynamics for the vowel sounds of human language
    Mar 6, 2020 · The nine most common short vowels and their long versions. Frequency column shows the percentage of languages in the PHOIBLE database [53]