Tag: (E) hot

(2007) English, French, Polish, Korean – Physical qualities


Goddard, Cliff & Wierzbicka, Anna (2007). NSM analyses of the semantics of physical qualities: sweet, hot, hard, heavy, rough, sharp in cross-linguistic perspective. Studies in Language, 31(4), 765-800.

DOI: 10.1075/sl.31.4.03god

Abstract:

All languages have words such as English hot and cold, hard and soft, rough and smooth, and heavy and light, which attribute qualities to things. This paper maps out how such descriptors can be analysed in the Natural Semantic Metalanguage (NSM) framework, in terms of like and other semantic primes configured into a particular “semantic schema”: essentially, touching something with a part of the body, feeling something in that part, knowing something about that thing because of it, and thinking about that thing in a certain way because of it. Far from representing objective properties of things “as such”, it emerges that physical quality concepts refer to embodied human experiences and embodied human sensations. Comparisons with French, Polish and Korean show that the semantics of such words may differ significantly from language to language.

More information:

A more recent publication building on this one is chapter 3 (pp. 55-79) of:

Goddard, Cliff & Wierzbicka, Anna (2014). Words and meanings: Lexical semantics across domains, languages, and cultures. Oxford: Oxford University Press.

The term schema, used in the 2007 version of the text, refers to what has since been called a semantic template.

Rating:


Research carried out by one or more experienced NSM practitioners

(2010) Environmental semantic molecules


Goddard, Cliff (2010). Semantic molecules and semantic complexity (with special reference to “environmental” molecules). Review of Cognitive Linguistics, 8(1), 123-155. DOI: 10.1075/ml.8.1.05god

In the NSM approach to semantic analysis, semantic molecules are a well-defined set of non-primitive lexical meanings in a given language that function as intermediate-level units in the structure of complex meanings in that language. After reviewing existing work on the molecules concept (including the notion of levels of nesting), the paper advances a provisional list of about 180 productive semantic molecules for English, suggesting that a small minority of these (about 25) may be universal. It then turns close attention to a set of potentially universal level-one molecules from the “environmental” domain (‘sky’, ‘ground’, ‘sun’, ‘day’, ‘night’ ‘water’ and ‘fire’), proposing a set of original semantic explications for them. Finally, the paper considers the theoretical implications of the molecule theory for our understanding of semantic complexity, cross-linguistic variation in the structure of the lexicon, and the translatability of semantic  explications.


Research carried out by one or more experienced NSM practitioners