20 research outputs found
Gifted and talented education in New Zealand schools: A decade later
In 2004, the Ministry of Education released research investigating identification of and provisions for gifted and talented students in New Zealand Schools (Riley, Bevan-Brown, Bicknell, Carroll-Lind, & Kearney, 2004). This was landmark research: the first national study of gifted and talented education funded by the Ministry and released alongside a range of initiatives for students and those who identify and educate them in the schooling sector. The research comprised a comprehensive review of the literature, a national survey of schools, and ten case studies of best practice, with an aim of creating āa roadmap for future research and initiativesā (2004, p. 36)
Supporting the development of number fact knowledge in five- and six-year-olds
This paper focuses on childrenās number fact knowledge from a study that explored the impact of using multiplication and division contexts for developing number understanding with 34 five- and six-year-old children from diverse cultural and linguistic backgrounds. After a series of focused lessons, childrenās knowledge of number facts, including single digit addition, subtraction, and doubles had improved. However, they did not always apply this knowledge to relevant problem-solving situations. The magnitude of the numbers did not necessarily determine the difficulty level for achieving automaticity of number fact knowledge
Developing young children's understanding of place-value using multiplication and quotitive division
This paper focuses on selected findings from a study that explored the use of multiplication and division with 34 five- and six-year-old children from diverse cultural and linguistic backgrounds. The focus of instructional tasks was on working with groups of ten to support the understanding of place value. Findings from relevant assessment tasks and childrenās work highlighted the importance of encouraging young children to move from unitary (counting by ones) to tens-structured thinking
Using multiplication and division contexts to build place-value understanding
The paper describes a study with five-year-old children to explore how multiplication and division problems helped them to develop early place-value understanding. Two teachers taught a series of focussed lessons over two four-week periods. The children solved problems using familiar materials grouped in twos, fives and tens. By the end of the instructional period, virtually all children knew that two fives make ten; the majority could work with tens. Half of them could add tens and ones, fewer partitioned tens, and few could work with multi-unit processes. We propose a 5-level framework that describes developmental progressions in children's awareness of groups of five and ten as building blocks for place-value understanding
The mathematical content knowledge and attitudes of New Zealand pre-service primary teachers
This paper presents data on the mathematical content knowledge and attitudes of pre-service primary teacher education students. The assessment consisted of nine tasks, including 2-digit computations and proportional reasoning. Students rated their liking for mathematics at three time points: primary, secondary, .and when assessed. Fewer than half the students liked mathematics, currently. Those with positive attitudes tended to perform well on mathematics tasks, but some low scorers were positive and some high' scorers were negative about mathematics. Most students used algorithmic procedures to solve problems and several consistent misconceptions were identified. Performance was noticeably poor on adding common fractions and converting fractions to percentages using knowledge of common factors. The implications of these findings for Initial Teacher Education (ITE) providers are presented
Multiple perspectives on the education of mathematically gifted and talented students : a dissertation presented in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Education at Massey University, Palmerston North, New Zealand
This study examines multiple perspectives on the education of a group of fifteen
Year 6 and Year 8 students identified as mathematically gifted and talented. The
studentsā mathematical experiences, both past and present are examined using
evidence from school policy documents; student, teacher, and parent interviews;
questionnaires; and classroom observations. The purpose of this case study was to
seek understandings about awareness of the characteristics of mathematically gifted
and talented students, the identification of and educational provisions for
mathematically gifted and talented students, parental involvement, and school
transfer.
The group of fifteen students consisted of ten Year 6 students who transferred from
primary school to a new school for Year 7, and five Year 8 students who moved to
secondary schools for Year 9. These students had been identified by their school and
teachers as gifted and talented in mathematics.
This predominantly qualitative study is underpinned by an interpretive paradigm and
influenced by a sociocultural philosophy of learning and teaching. The literature
review presents the dilemmas, similarities, and differences that prevail in the field of
gifted education. A more specific focus is given to the education of mathematically
gifted students to highlight gaps in the field. This two-year study tracking a group of
students provides a cohesive approach to understanding the educational provisions
for students identified as mathematically gifted and talented in the New Zealand
setting. The multiple case studies included interviews, questionnaires, documents,
and observations.
The research findings show that there is not a comprehensive understanding by
schools and teachers about the characteristics of mathematically gifted students.
Despite the documentation of a range of identification processes in school policies, a
multiple method approach is not practised in many schools. Provision of appropriate
programmes is variable and determined by factors such as school organization,
identification, teacher knowledge and expertise, and resources. Parents play a key
role in their childrenās mathematics education as motivators, resource providers,
monitors, mathematics content advisers, and mathematical learning advisers.
Schools, teachers, parents, and peers all contribute to the success of a studentās
transfer from one phase of schooling to another; they support a studentās social and
emotional well being and influence curriculum continuity in mathematics.
This study provides insights into the various determinants of the development of
mathematical talent. For New Zealand schools and teachers, it provides evidence that
understanding the characteristics of mathematical giftedness is important and that
identification processes must reflect this understanding. Provisions must be well
considered and evaluated; the role of parents should be understood and valued; and
home-school communications strengthened. Together, all stakeholders share a
critical role in the education of mathematically gifted and talented students
The writing of explanations and justifications in mathematics : a thesis presented in partial fulfilment of the requirements for the degree of Master of Education, Massey University
This study reports on the writing of explanations and justifications in mathematics. A variety of approaches including a document analysis, teacher survey, students' responses to problem solving tasks, and student interviews were used to examine the complexities and interpretations of writing explanations and justifications in mathematics. The study involved six teachers and 36 Year 11 students from a provincial co-educational secondary school; 14 of the students were interviewed. An analysis of the Year 11 national mathematics examination, School Certificate, revealed a significant increase in emphasis on the writing of explanations; from 2.7% of the total marks in 1992, to 16% of the total marks in 1997. It was not until 1997 that students were specifically asked to write justifications. In this study students experienced some difficulties writing explanations and had concerns about whether their explanations were satisfactory; a variety of modes of representation were used by students. Most students surveyed were unable to write justifications; they lacked knowledge and confidence in justifying their solutions. The teachers believed that the writing of explanations and justifications was an important process but expressed a number of concerns. These concerns were the class time needed, and the lack of resources and professional development. Both students and teachers were concerned about not knowing what makes a quality response. The writing of explanations and justification should be a valued and regular part of the mathematics programme so that students are able to develop and evaluate mathematical arguments and proofs and effectively communicate their findings to others. The study suggests that students and teachers need to work together in negotiating an understanding of what is meant by an explanation, and a justification, and what makes a quality response
Thoughtful practice: Taking professional development a step further
This paper reports on a follow-up study of one teacher, two years after she participated in a numeracy staff development contract based on the Cognitively Guided Instruction (CGI) philosophy.The discussion is based on classroom observations and a semi-structured interview focusing on Ms Smith's perspective on the experience. She explains how she uses the research-based knowledge about the development of children's mathematical thinking gained from professional development to inform the teaching and learning of mathematics in her classroom.This single case study is used to give some insight into reflective practice, self-sustaining and generative change in the teaching of mathematics, and professional development