Enabling students' critical mathematical thinking. The capacity to use mathematics critically is essential for making prudent decisions and forming balanced judgements about economic, health, environmental and other challenges facing society. Developing Critical Mathematical Thinking (CMT) in the classroom provides students with the necessary skills to address complex real-world problems. Fostering CMT, however, is difficult and teaching practices around its development are under-researched and ....Enabling students' critical mathematical thinking. The capacity to use mathematics critically is essential for making prudent decisions and forming balanced judgements about economic, health, environmental and other challenges facing society. Developing Critical Mathematical Thinking (CMT) in the classroom provides students with the necessary skills to address complex real-world problems. Fostering CMT, however, is difficult and teaching practices around its development are under-researched and under-theorised. This study aims to generate new insight into teaching practices that can promote or inhibit students' CMT development. To address this aim, we use an innovative video-based methodology that integrates researcher and teacher perspectives on students' CMT development.Read moreRead less
Processing mathematics tasks: the nature and role of visual and non-visual reasoning in digital and non-digital environments. Within the next four years, it is likely that the National Assessment Plan for Literacy and Numeracy (NAPLAN) will be administered in a digital mode. This project identifies differences between the delivery of mathematics assessment in pencil-and-paper and computer-based modes. Primary students' mathematics reasoning is compared across these modes and to cohorts from Sing ....Processing mathematics tasks: the nature and role of visual and non-visual reasoning in digital and non-digital environments. Within the next four years, it is likely that the National Assessment Plan for Literacy and Numeracy (NAPLAN) will be administered in a digital mode. This project identifies differences between the delivery of mathematics assessment in pencil-and-paper and computer-based modes. Primary students' mathematics reasoning is compared across these modes and to cohorts from Singapore.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100399
Funder
Australian Research Council
Funding Amount
$367,996.00
Summary
Mathematics education for babies and toddlers. This project aims to investigate mathematics education for babies and toddlers by focussing on the practices of the educators who work with children aged under three years. This project expects to generate new knowledge about when and how mathematical experiences are provided for children in Under 3s settings. It will contribute to the current agenda of enhancing Science, Technology, Engineering and Mathematics (STEM) participation and outcomes by e ....Mathematics education for babies and toddlers. This project aims to investigate mathematics education for babies and toddlers by focussing on the practices of the educators who work with children aged under three years. This project expects to generate new knowledge about when and how mathematical experiences are provided for children in Under 3s settings. It will contribute to the current agenda of enhancing Science, Technology, Engineering and Mathematics (STEM) participation and outcomes by elucidating the early mathematics education base upon which STEM education can build. Findings will inform the development of professional learning materials for Under 3s settings and will enhance pedagogical approaches to support high-quality mathematics education for very young children.Read moreRead less
Enriching mathematics and science learning: an interdisciplinary approach. This international, longitudinal project aims to investigate the effectiveness of an innovative interdisciplinary learning approach in mathematics and science. Through collaborating primary schools in Australia and the United States of America (USA), it will investigate how students’ invention and transformation of representational systems can connect to support deeper reasoning and learning. The project will form the ba ....Enriching mathematics and science learning: an interdisciplinary approach. This international, longitudinal project aims to investigate the effectiveness of an innovative interdisciplinary learning approach in mathematics and science. Through collaborating primary schools in Australia and the United States of America (USA), it will investigate how students’ invention and transformation of representational systems can connect to support deeper reasoning and learning. The project will form the bases for new curricular designs that leverage students’ representational practices across science, technology, engineering and mathematics (STEM) disciplines to promote more robust and generative knowledge.Read moreRead less
Transforming children's mathematical and scientific development: a longitudinal study. An innovative program promoting young children's mathematical and scientific reasoning will be evaluated from grades one to three This study will determine whether an intervention capitalising on children's natural capacity for learning impacts their general cognitive development and problem solving skills at an optimum age.
Connecting mathematics learning through spatial reasoning. This project aims to create a framework based on spatial reasoning that identifies pathways for mathematics learning, pedagogy and curriculum. Realising Australia’s Innovation and Science Agenda fundamentally rests on transforming the nation's mathematical capacity. Spatial reasoning, an emerging transdisciplinary area, is integral to all human learning, particularly for science, technology, engineering and mathematics (STEM) fields. Thi ....Connecting mathematics learning through spatial reasoning. This project aims to create a framework based on spatial reasoning that identifies pathways for mathematics learning, pedagogy and curriculum. Realising Australia’s Innovation and Science Agenda fundamentally rests on transforming the nation's mathematical capacity. Spatial reasoning, an emerging transdisciplinary area, is integral to all human learning, particularly for science, technology, engineering and mathematics (STEM) fields. This project will map the unknown complex systems linking spatial and mathematical concepts, and design, implement and evaluate a longitudinal intervention study of primary students, including tracking of highly able students. This will lead to more highly skilled and adaptive citizens.Read moreRead less
Improving numeracy outcomes for young Indigenous children through the Patterns and Early Algebra Preschool (PEAP) professional development program. The study aims to improve mathematics outcomes for young Indigenous children and advance the pedagogical content knowledge of early childhood educators and working towards closing the gap in numeracy achievements for Indigenous children. The study will add to the research literature on early algebraic thinking and mathematical reasoning.