Chemical phonology: Relating phonemes and elements of the chemistry periodic table

Pub Date : 2023-08-15 DOI:10.2989/16073614.2022.2127411
Humphrey M. Kapau, F. Banda
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Abstract

Abstract Framed in the social constructivist and funds of knowledge framework, the article relates descriptions of phonemes in linguistics and elements of the periodic table in chemistry to show how the concept of a phoneme can be explained in a multidisciplinary manner to further the understanding of phoneme characteristics. The article argues that the concept of a phoneme can be understood to be similar to an element (with atoms as phonologically distinctive features), while an allophone is like an isotope. While some phonemes are like monatomic and diatomic molecules, others are like polyatomic molecules. In the formation of syllables, sounds combine with other sounds in a manner that can be imagined to be similar to chemical reactions in chemistry. The study comes up with the idea of Humphrey Kapau Spaces (HK Spaces) to account for the elasticity and endless manipulation of language and the possible adoption of new linguistic and phonetic features such as new allophones and phonemes and new words and idioms. Lastly, the article introduces the chemical phonology model (CPM), which draws from linguistics and chemistry for its explanatory power to re-imagine phonemes and the teaching and learning of aspects of phonology, and for enriched and more powerful cumulative discipline-crossing knowledge.
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化学音位学:化学元素周期表中的相关音位和元素
摘要本文在社会建构主义和知识基金框架下,将语言学中对音素的描述与化学中元素周期表的元素联系起来,展示如何以多学科的方式解释音素的概念,以进一步理解音素的特征。这篇文章认为,音位的概念可以被理解为类似于一种元素(原子是音位上的独特特征),而变异体则像同位素。有些音素像单原子分子和双原子分子,而另一些则像多原子分子。在音节的形成过程中,声音与其他声音的结合方式可以想象为类似于化学中的化学反应。本研究提出了Humphrey-Kapau空间(HK空间)的概念,以解释语言的弹性和无休止的操纵,以及可能采用的新的语言和语音特征,如新的变异体和音素,新的单词和习语。最后,本文介绍了化学音韵学模型(CPM),该模型借鉴了语言学和化学,因为它对音位的重新想象和音韵学各方面的教学具有解释力,并且积累了更丰富、更强大的跨学科知识。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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