For the sake of the argument: developing students' inferential arguments in statistics. Data adds power and persuasion to arguments in every aspect of life: work, citizenship or personal. This international collaboration will infuse argumentation skills into the learning of school statistics. New knowledge developed in this project will forge a citizenry, workforce and scientists savvy in creating and critiquing data-based arguments.
Statistical literacy in the primary school: beginning inference. Australia is committed to building a stronger foundation for school mathematics and science. This project will introduce primary school students to beginning inference, a core component of statistical literacy and an increasingly important life skill. Foundations for secondary mathematics study and productive societal participation will be laid.
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
Processing dynamic graphics: Visuospatial reasoning in mathematics. Increasingly, mathematics competence will be measured in digital and dynamic contexts. Students who possess high visuospatial reasoning are expected to become even better equipped to succeed in science, technology, engineering and mathematics (STEM) related disciplines as technological advances shape how we interpret and decode information. This project explores those aspects of visuospatial reasoning critical for success when s ....Processing dynamic graphics: Visuospatial reasoning in mathematics. Increasingly, mathematics competence will be measured in digital and dynamic contexts. Students who possess high visuospatial reasoning are expected to become even better equipped to succeed in science, technology, engineering and mathematics (STEM) related disciplines as technological advances shape how we interpret and decode information. This project explores those aspects of visuospatial reasoning critical for success when students encounter dynamic mathematics tasks, and attempts to determine whether different forms of visuospatial reasoning are required to decode static and dynamic information. The project aims to better understand how students process mathematics tasks, so the inevitable move toward digital assessment can be managed effectively to promote assessment for learning.Read moreRead less
Modelling with data: Advancing STEM in the primary curriculum. Improving the nation's skills in Science, Technology, Engineering, and Mathematics (STEM) remains a continuing concern, especially given the decline in international test results. The project aims to introduce a new approach to promoting this learning across grades 3-6 through modelling with data. With a focus on inquiry processes involving data variation and uncertainty within STEM-based contexts, the project aims to develop the imp ....Modelling with data: Advancing STEM in the primary curriculum. Improving the nation's skills in Science, Technology, Engineering, and Mathematics (STEM) remains a continuing concern, especially given the decline in international test results. The project aims to introduce a new approach to promoting this learning across grades 3-6 through modelling with data. With a focus on inquiry processes involving data variation and uncertainty within STEM-based contexts, the project aims to develop the important mathematical and statistical literacies needed for lifting student achievements. In advancing both theory and practice, the project aims to contribute to knowledge of primary students' capabilities for STEM problem solving and ways of enhancing implementation of the Australian Curriculum.Read moreRead less
Developmental engineering education in the primary school. Primary school students will learn about engineers and how engineering shapes our society. Students will develop important design processes in solving authentic, engineering-based problems. Their learning in the increasingly important science, technology, engineering, and mathematics (STEM) area will be enhanced, providing a foundation for addressing the increasing skills shortage in engineering.
Discovery Early Career Researcher Award - Grant ID: DE160100830
Funder
Australian Research Council
Funding Amount
$365,071.00
Summary
Supporting children's early mathematics development. This project aims to investigate how implementation of cognitively demanding mathematics tasks in the early years may change number development and mathematics achievement. By focusing on children’s use of strategy, the project seeks to link classroom mathematics with underpinning cognitive processes. It also plans to use eye tracking technology to identify connections between explicit mathematics strategies and intuitive cognitive behaviours. ....Supporting children's early mathematics development. This project aims to investigate how implementation of cognitively demanding mathematics tasks in the early years may change number development and mathematics achievement. By focusing on children’s use of strategy, the project seeks to link classroom mathematics with underpinning cognitive processes. It also plans to use eye tracking technology to identify connections between explicit mathematics strategies and intuitive cognitive behaviours. It is expected this project will have important implications for teaching practice in the early years of school, by providing new understanding of how engaging in demanding tasks influences children’s flexible use of strategy and subsequent achievement. This would inform practitioners and policy-makers about the supports required to establish strong mathematics foundations in children.Read moreRead less
Modelling with design: learning innovation across primary science, technology, engineering and mathematics (STEM). This project aims to introduce a new approach to advancing mathematics learning and problem solving across grades four to six. This project expects to generate new knowledge by building on primary school students’ science, technology, engineering and mathematics (STEM) competencies across several years. The project will establish critical foundations for advancing core mathematics ....Modelling with design: learning innovation across primary science, technology, engineering and mathematics (STEM). This project aims to introduce a new approach to advancing mathematics learning and problem solving across grades four to six. This project expects to generate new knowledge by building on primary school students’ science, technology, engineering and mathematics (STEM) competencies across several years. The project will establish critical foundations for advancing core mathematics content and multidisciplinary problem-solving knowledge. Expected outcomes include evidencebased findings and resources to inform ways to stimulate, sustain, and improve achievement across the STEM disciplines.Read moreRead less
Developing classroom norms of inquiry-based learning in mathematics. This project aims to study inquiry norms in primary mathematics classrooms, including expert teachers’ signature practices, how norms are developed and their effect on learning. Classroom norms dictate the learning environment in school mathematics, but many students have lost interest in STEM subjects. This project aims to boost inquiry norms that engage students in productive social interactions, improve their mathematical kn ....Developing classroom norms of inquiry-based learning in mathematics. This project aims to study inquiry norms in primary mathematics classrooms, including expert teachers’ signature practices, how norms are developed and their effect on learning. Classroom norms dictate the learning environment in school mathematics, but many students have lost interest in STEM subjects. This project aims to boost inquiry norms that engage students in productive social interactions, improve their mathematical knowledge and their interest in, valuing of and capacity to solve complex problems.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.