Addressing Language Diversity in Early Years Mathematics: Proposed Classroom Practices through a Live Brief Assessment
Abstract
:1. Introduction
- What are teaching practices that prospective teachers propose through Live Brief presentations to address language diversity in early years mathematics? (or as the school stated, to address ‘the language gap’ in early years mathematics).
1.1. Language Diversity and Mathematics
1.1.1. Language Diversity
1.1.2. The Nature and Purpose of Mathematics
1.1.3. Addressing Language Diversity through Pedagogy
1.2. Context
1.2.1. Research Setting
1.2.2. National Context
The national curriculum for mathematics reflects the importance of spoken language in pupils’ development across the whole curriculum–cognitively, socially, and linguistically. The quality and variety of language that pupils hear and speak are key factors in developing their mathematical vocabulary and presenting a mathematical justification, argument or proof. They must be assisted in making their thinking clear to themselves as well as others and teachers should ensure that pupils build secure foundations by using discussion to probe and remedy their misconceptions [57], p. 4.
2. Theoretical and Analytical Framework
3. Methods
3.1. Live Brief Task: Addressing the Language Gap in Early Years Mathematics
3.2. Participants
3.3. Data Generation and Analysis
- Familiarization: Author 1 had familiarity with the presentations through the students’ live presentations. Nevertheless, we both read all the presentations independently and looked at one from each group together, thinking with Moschkovich’s (2002) [3] three perspectives and related literature on the role of language in teaching and learning mathematics. This stage helped us to make meaning of data in light of the literature we have been engaging with. We made some preliminary notes for each presentation depending on our first interpretation of data and included them as ‘group summaries’ to inform our next stages of data analysis.
- Generating codes: We chose 2 presentations from each group and started to draw links between Moschkovich’s perspectives and related concepts independently with students’ proposed practices. We also identified any hybrid perspectives engrained within some activities that could not be categorised into one perspective (i.e., occurrences of at least two different perspectives). We created a table (Table 3) where the occurrences of each perspective were recorded. We utilised some sensitizing concepts [64], in other words interpretive devices, that are derived from the literature (e.g., [38,42]) in generating codes. These concepts included lexicon perspective (e.g., explicit vocabulary teaching, pupils’ writing their own definition); register perspective (e.g., multiple meanings in everyday life and mathematics, more focus on multiple registers instead of students’ using such registers to communicate); situated-sociocultural perspective (e.g., participating, communicating, reasoning, making sense in mathematical practices using every day and mathematical discourses, language as resource). We had frequent meetings to discuss our initial codes and potential categories in light of the sensitizing concepts and our research question.
- Constructing themes: Upon completion of coding all presentations and creating a summary of the occurrence of each perspective within the proposed practices, we started to think about possible ways of collating codes, categories, and practices to form themes (see Table 2). We dwelled on underlying factors that might have produced the proposed practices and some higher order concepts to capture the essence of data, addressing our research question.
- Reviewing themes: We reviewed the themes, cross-checking the codes, categories, and the content of presentations to capture the dataset meaningfully and coherently.
- Defining and naming themes: Three themes, explicit vocabulary teaching, scaffolding and the use of multi-sensory approaches were selected to account for the students’ proposed practices in their Live Brief presentations. These themes are selected as they had the most explanatory power to capture the essence of the data and helpfully address our research question. Data extracts are chosen to illustrate each theme effectively.
- Writing up: The final report has been produced collectively and reflexively, that included cross-checking the writing with the codes, themes and data set separately and engaging with discussions on the logical order of the themes and extracts from the dataset. In order to make data organisation and classification more manageable, we numbered the group presentations (e.g., G1), although we focussed on the tasks individually. We agreed that the most common practice, explicit vocabulary teaching should be the first one to portray the dataset.
3.4. Ethical Considerations
4. Findings
4.1. Summary of the Occurrences of Moschkovich’s Perspectives in the Proposed Practices
4.2. Proposed Practices to Address Language Diversity
Explicit Vocabulary Teaching
Teacher addresses the important key words for the lesson, whilst the children are gathered during ‘carpet time’; ensuring the mathematical terms have been repeated and rehearsed collectively by the students multiple times to develop their memory and familiarisation.
[Repetition of mathematical language at home] is a good way to help the children of Indian and Polish descents if English is not their first language as it gives their parents opportunities to communicate and translate with their children.
Our Action plan to close the language gap in mathematics within the EYFS includes having labels in English, Polish and Indian as this will then incorporate the children’s additional languages. By having labels, the children will then have a visual aid to help the students to understand mathematical concepts. (G9)
5. Scaffolding
To support children with English as an additional language/speech difficulty, a speech therapist will attend our activity and provide us feedback for those who may need extra support. (G4)
6. The Use of Multisensory Approaches
7. Discussion and Implications
8. Language Diversity: A ‘Problem’, Resource, or a Neglected Aspect?
9. Mathematics: A Language Free Subject or a Communication Tool?
10. Final Remarks
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Conflicts of Interest
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The context: The local school is a relatively small primary school with around 200 students and located in a socially and economically deprived area. One-third of the pupils speak an additional language, besides English. The largest multilingual groups are from Indian Heritage and Poland. According to the school’s base line assessments, most pupils arrive at school with a vocabulary deficit and the school put vocabulary teaching at the heart of their EYFS curriculum. Vocabulary is taught in context and repeated in daily life. There are targeted speaking times devoted to developing pupils’ vocabulary. |
Tasks to complete:
|
Illustrative excerpt | ||
Singing number related songs: At the beginning of our lesson the whole class activity will be using songs this is a good way to close the language gap in mathematics in the EYFS this is because using music is good for active engagement with the class, it’s also been shown that using songs and music within the classroom can have an impact on the way children’s brains process information and enhancing their language skills and speech. In the class we will be singing the “five little ducks” alongside singing this song we will have puppets this is so we can give children a visual representation this will be especially useful for those children with additional language and needs. As we are singing the song as the whole class using puppets, we will have a video of the song to help children’s cognitive recognition. Around the room we will have numbers on the walls to make it clear for the children if they need further help and guidance. This will then help to close the gap on mathematical language as it helps to explain the concept of ‘one more’ and ‘one less’. G9 | ||
Codes | Categories | Themes |
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|
|
Moschkovich’s Perspectives | |||
---|---|---|---|
Activities | Lexicon Perspective | Register Perspective | Situated Sociocultural Perspective |
One-to-one activity | 14 | 13 | 8 |
Small group activity | 17 | 11 | 3 |
Whole class activity | 19 | 11 | 3 |
Total occurrences 1 | 50 | 35 | 14 |
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Hizli Alkan, S.; Sahin Ipek, D. Addressing Language Diversity in Early Years Mathematics: Proposed Classroom Practices through a Live Brief Assessment. Educ. Sci. 2023, 13, 1025. https://doi.org/10.3390/educsci13101025
Hizli Alkan S, Sahin Ipek D. Addressing Language Diversity in Early Years Mathematics: Proposed Classroom Practices through a Live Brief Assessment. Education Sciences. 2023; 13(10):1025. https://doi.org/10.3390/educsci13101025
Chicago/Turabian StyleHizli Alkan, Sinem, and Derya Sahin Ipek. 2023. "Addressing Language Diversity in Early Years Mathematics: Proposed Classroom Practices through a Live Brief Assessment" Education Sciences 13, no. 10: 1025. https://doi.org/10.3390/educsci13101025
APA StyleHizli Alkan, S., & Sahin Ipek, D. (2023). Addressing Language Diversity in Early Years Mathematics: Proposed Classroom Practices through a Live Brief Assessment. Education Sciences, 13(10), 1025. https://doi.org/10.3390/educsci13101025