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Die vorliegende Untersuchung behandelt ein spezifisches Problem aus dem Bereich des Bruchunterrichts, nämlich das Problem der Bezeichnungsweise sogenannter „gemischter Zahlen“. Wir werden – nach der Klärung der Terminologie – zunächst die relevanten Daten vorstellen, die wir den Bruchalben von Schüler(innen) einer 6.Klasse entnommen haben (Abschnitt 3). Nach der Darstellung des Fehlerphänomens werden wir dann die kognitiven Fehlerursachen analysieren:2 Die aufgefundenen Normabweichungen werden als Folge eines spezifischen „Interpretationsproblems“ diskutiert, das wir mithilfe linguistischer Analysen auf verbalsprachliche Parallelen der betreffenden Bruchzahlbezeichnungen mit Anzahlangaben zurückführen (Abschnitt 4); auf dieser Basis skizzieren wir Vorschläge für den Mathematikunterricht, die zur Bewältigung des diskutierten Problems beitragen sollen (Abschnitt 5).
How far can language-specific structures influence conceptualisation? After a period of time where the discussion of any ‘Whorfian’ effects tended to be considered of little scientific merit, the recent decade has seen a renewed interest in this question. In particular, studies have aimed to tease apart ‘thinking for speaking’ from general cognition (cf. Slobin 1996, Stutterheim & Nüse 2002) and have shown that language-specific differences can often be observed in verbalisation as well as in the preverbal preparation phase of speech production, rather than in non-linguistic tasks.
What role does language play in the development of numerical cognition? In the present paper I argue that the evolution of symbolic thinking (as a basis for language) laid the grounds for the emergence of a systematic concept of number. This concept is grounded in the notion of an infinite sequence and encompasses number assignments that can focus on cardinal aspects ("three pencils"), ordinal aspects ("the third runner"), and even nominal aspects ("bus #3"). I show that these number assignments are based on a specific association of relational structures, and that it is the human language faculty that provides a cognitive paradigm for such an association, suggesting that language played a pivotal role in the evolution of systematic numerical cognition.
I discuss the status of WH-words for interrogative interpretations, and show that the derivation of constituent questions evolves from a specific interplay of syntactic and semantic representations with pragmatics. I argue that WH-pronouns are not ‘interrogative’. Rather, they are underspecified elements; due to this underspecification, WH-words can form a constitutive part not only of interrogative, but also of exclamative and declarative clauses. WH-words introduce a variable of a particular conceptual domain into the semantic representation. Accordingly, they have to be specified for interpretation. Different WH-contexts give rise to different interpretations. In a cross-linguistic overview, I discuss the characteristic elements contributing to the derivation of interrogatives. I argue that specific particles or their phonologically empty counterparts in the head of CP contribute the interrogative aspect. The speech act of ‘asking’ is then carried out via an intonational contour that identifies a question. By default, this intonational contour operates on interrogative sentences; however, other sentence formats – in particular, those of declarative sentences – are possible as well. The distinction of (a) grammatical (syntactic, semantic and phonological) sentence formats for interrogative and declarative sentences, and (b) intonational contours serving the discrimination of speech acts like questions and assertions, can be related to psychological and neurological evidence.
This paper discusses constructions like “We’ll have two beers and a coffee.” that are typically used for beverage orders in restaurant contexts. We compare the behaviour of nouns in these constructions in three Germanic languages, English, Icelandic, and German, and take a closer look at the correlation of the morpho-syntactic and semantic-conceptual changes involved here. We show that even within such a closely related linguistic sample, one finds three different grammatical options for the expression of the same conceptual transition. Our findings suggest an analysis of coercion as a genuinely semantic phenomenon, a phenomenon that is located on a level of semantic representations that serves as an interface between the conceptual and the grammatical system and takes into account inter- and intralinguistic variations.
Humans possess a number concept that differs from its predecessors in animal cognition in two crucial respects: (1) it is based on a numerical sequence whose elements are not confined to quantitative contexts, but can indicate cardinal/quantitative as well as ordinal and even nominal properties of empirical objects (e.g. ‘five buses’: cardinal; ‘the fifth bus’: ordinal; ‘the #5 bus’: nominal), and (2) it can involve recursion and, via recursion, discrete infinity. In contrast to that, the predecessors of numerical cognition that we find in animals and human infants rely on finite and iconic representations that are limited to cardinality and do not support a unified concept of number. In this paper, I argue that the way such a unified number concept could evolve in humans is via verbal sequences that are employed as numerical tools, that is, sequences of words whose elements are associated with empirical objects in number assignments. In particular, I show that a certain kind of number words, namely the counting sequences of natural languages, can be characterised as a central instance of verbal numerical tools. I describe a possible scenario for the emergence of such verbal numerical tools in human history that starts from iconic roots and that suggests that in a process of co-evolution, the gradual emergence of counting sequences and the development of an increasingly comprehensive number concept supported each other. On this account, it is language that opened the way for numerical cognition, suggesting that it is no accident that the same species that possesses the language faculty as a unique trait, should also be the one that developed a systematic concept of number.
Sprachvermögen und Zahlbegriff : zur Rolle der Sprache für die Entwicklung numerischer Kognition
(2004)
In welchem Zusammenhang stehen Sprache und Zahl als kognitive Domänen? Welche Rolle spielt das menschliche Sprachvermögen für die Entwicklung des Zahlbegriffs? In den letzten Jahrzehnten haben verschiedene Disziplinen aus dem Gebiet der Kognitionswissenschaft – darunter Psycholinguistik, Entwicklungspsychologie, Ethologie und kognitive Neurowissenschaft – wesentlich zu unserem Verständnis der Beziehung zwischen Sprache und numerischer Kognition beigetragen. Die unterschiedlichen Ergebnisse liefern Evidenz für eng verknüpfte ebenso wie für autonome Bereiche in den beiden Domänen.
I give a unified account of numeral classifiers as lexical items that are reduced to the function of individuation in cardinal counting constructions with transnumeral nouns. I argue that individuation is a lexical-semantic phenomenon that triggers a focus shift from a whole set to its individual elements, but does not affect the conceptual representation. The semantic reduction of numeral classifiers to individuation functions is, on the one hand, reflected by a morpho-syntactic reduction; numeral classifiers do not project to full NPs, but occur as headadjuncts in QPs. On the other hand, it leads to a loss of conceptual features. As a result, nouns that are used as numeral classifiers are conceptually divorced from their NP counterparts. They integrate the nominal concept not as part of their interpretation, but via agreement features that govern the distribution of nouns in classifierconstructions. I show that the selection of conceptual features relevant for the distribution of numeral classifiers and nouns is lexically, not conceptually governed, supporting a model that distinguishes lexical-semantic and conceptual aspects in the generation of meaning.
Gegenstand des vorliegenden Beitrags ist der Zusammenhang der beiden Bereiche Sprache und außersprachliches Begriffssystem: Wie sind sprachliche und konzeptuelle Module verknüpft, und wie lässt sich ihr Zusammenhang theoretisch erfassen? Ich skizziere zwei alternative Ansätze zur Modellierung dieser Schnittstelle: das „Zwei-Ebenen-Modell“ und das Modell der „Conceptual Semantics“. Vor dem Hintergrund der beiden Ansätze diskutiere ich die Notwendigkeit eines vom konzeptuellen unterschiedenen „semantischen“ Systems, das sprachliche Aspekte der Bedeutung erfasst. Ich entwickele auf dieser Basis ein Modell, in dem die semantische Ebene als integrierter Teil des konzeptuellen Systems CS definiert ist: Semantische Repräsentationen werden durch einen Filter über CS generiert; sie etablieren eine Schnittstellen-Ebene, die CSElemente sprachlichen Strukturen zugänglich macht. Das Modell, das als Elaboration des „Tripartite Parallel Architecture“-Modells (Jackendoff 1997) verstanden werden kann, differenziert sprachliche und nicht-sprachliche Bedeutungsaspekte innerhalb eines komplexen Moduls (“2 in 1”-Ansatz).
Im Rahmen philosophisch-mathematischer Ansätze steht häufig der kardinale Aspekt natürlicher Zahlen im Vordergrund, auf den sprachlich mit Kardinal-Konstruktionen („sieben Zwerge“) referiert wird. Zahlen werden jedoch nicht nur in solchen quantitativen, sondern auch in ordinalen („der dritte Mann“) oder nominalen Kontexten („Bus Nr.129“) gebraucht. Bei einer umfassenden Analyse des Zahlkonzepts sind daher auch diese Komponenten zu berücksichtigen.