The Impact of Math Innovations in Elementary Mathematics Classrooms in Georgia Vision Project Districts

Dozier, Karen

13 May 2016

The purpose of this dissertation was to study how teachers and school leaders perceived a specific set of classroom math innovations, and how those innovations impacted instruction in relation to the Georgia Vision Project (GVP) standards and recommendations. This was a qualitative study conducted in two GVP districts. The participants in the study were five elementary teachers, two school administrators, and two district leaders. The participants were interviewed to gain an understanding of their perceptions of recent math innovations. The innovations included (a) math instruction using manipulatives (such as counting objects and puzzles) that utilize the Concrete Representational Abstract (CRA) model, which engages students to conceive from the concrete to the abstract; (b) differentiation through flexible student grouping; (c) information about how different subgroups of students learn mathematics; and (d) math professional learning. Previous research had focused on these innovations separately. However, no research study had grouped these innovations together to see how teachers perceived them within the context of a math classroom, and how teachers implemented them in their classrooms in order to increase student achievement. This qualitative case study included schoolteacher and educational leader interviews, observations, and artifacts. The two districts in the study were high performing in the area of mathematics. The results indicated that schoolteachers and educational leaders could not directly relate the math innovations to student success and, moreover, to the GVP standards and recommendations. During the study all GVP standards were analyzed at varying levels. The study primarily focused on the teaching and learning standard, which was a significant initiative for both districts. Both districts had varying levels of implementation concerning the innovations in the study: (a) use of manipulatives, (b) differentiation in classrooms, and (c) professional learning. All participants referenced the innovations as a part of their instruction, but could not directly relate the innovations beneficial to the success of the students.

Concrete representational abstract model

Differentiation

Flexible grouping

Math innovations

Professional learning

Student subgroups

Capacity building for curriculum differentiation in the teaching of foundation phase mathematics in Ngwaritsi Circuit, Limpopo Province

Marishane, Matseke Alinah

12 1900

This study aims at examining capacity building for Foundation Phase Mathematics teachers in curriculum differentiation in Limpopo Province. Proceeding within the framework of inclusive education, it takes as its point of departure two issues which are collectively critical for learner performance in Mathematics, namely, teacher capacity and differentiated instruction. The study revolves around the view that for improved learner achievement in Mathematics, particularly in lower grades, instructional practices aimed at supporting learners should be differentiated; and, that for this to be possible, teachers should be equipped with the capacity needed to carry out curriculum differentiation. This view emerges from the convergence of three problems which constitute the motivation for conducting this study. The first problem is poor learner achievement in Mathematics in South Africa, which is a subject dominating the public media and scientific discourse. The second problem is a documented general lack among teachers of appropriate knowledge, skills and attitudes needed for modification and adaptation of curriculum to the differentiated needs of learners. The last problem is the changing curriculum policy context in which teachers work as represented by the current national curriculum policy taking place against the backdrop of the broader South African education transformation agenda, geared towards inclusion. Underlying these problems is the recognition of curriculum as constituting one of the barriers to inclusive education.Based on an assumption that poor performance of learners in the Foundation Phase Mathematics is due to teachers’ inability to differentiate curriculum and their lack of the necessary capacity, this study adopts a qualitative research design and follows a qualitative approach to examine the problem. Data was collected by means of interviews, observations and document analysis. Twelve Mathematics teachers from three purposively selected schools and one curriculumadvisor from one circuit participated in the study. Data were analysed by means ofBraun and Clarke’s method of thematic analysis. The results present the challenges that Foundation Phase Mathematics teachers face, which include inability to respond to learner diversity and inadequate training in curriculum differentiation. / Inclusive Education / M. Ed. (Inclusive Education)

Curriculum differentiation

Capacity building

Differentiated instruction

Continuing professional development

Anchoring

Flexible grouping

Compacting

372.7096825

Capacity building for curriculum differentiation in the teaching of foundation phase mathematics in Ngwaritsi Circuit, Limpopo Province

Marishane, Matseke Alinah

12 1900

This study aims at examining capacity building for Foundation Phase Mathematics teachers in curriculum differentiation in Limpopo Province. Proceeding within the framework of inclusive education, it takes as its point of departure two issues which are collectively critical for learner performance in Mathematics, namely, teacher capacity and differentiated instruction. The study revolves around the view that for improved learner achievement in Mathematics, particularly in lower grades, instructional practices aimed at supporting learners should be differentiated; and, that for this to be possible, teachers should be equipped with the capacity needed to carry out curriculum differentiation. This view emerges from the convergence of three problems which constitute the motivation for conducting this study. The first problem is poor learner achievement in Mathematics in South Africa, which is a subject dominating the public media and scientific discourse. The second problem is a documented general lack among teachers of appropriate knowledge, skills and attitudes needed for modification and adaptation of curriculum to the differentiated needs of learners. The last problem is the changing curriculum policy context in which teachers work as represented by the current national curriculum policy taking place against the backdrop of the broader South African education transformation agenda, geared towards inclusion. Underlying these problems is the recognition of curriculum as constituting one of the barriers to inclusive education.Based on an assumption that poor performance of learners in the Foundation Phase Mathematics is due to teachers’ inability to differentiate curriculum and their lack of the necessary capacity, this study adopts a qualitative research design and follows a qualitative approach to examine the problem. Data was collected by means of interviews, observations and document analysis. Twelve Mathematics teachers from three purposively selected schools and one curriculumadvisor from one circuit participated in the study. Data were analysed by means ofBraun and Clarke’s method of thematic analysis. The results present the challenges that Foundation Phase Mathematics teachers face, which include inability to respond to learner diversity and inadequate training in curriculum differentiation. / Inclusive Education / M. Ed. (Inclusive Education)

Curriculum differentiation

Capacity building

Differentiated instruction

Continuing professional development

Anchoring

Flexible grouping

Compacting

372.7096825