Advancing future primary teachers' engagement in science inquiry learning. Australia's challenges in regard to scientific literacy and growth of student enrolments in science need to be addressed at multiple levels, starting with the preparation of future primary teachers. Promoting children's early interest in inquiry-based science is essential, yet a challenge for many teachers. This project examines the complex and dynamic interplay of cognitive, metacognitive and emotional processes in futur ....Advancing future primary teachers' engagement in science inquiry learning. Australia's challenges in regard to scientific literacy and growth of student enrolments in science need to be addressed at multiple levels, starting with the preparation of future primary teachers. Promoting children's early interest in inquiry-based science is essential, yet a challenge for many teachers. This project examines the complex and dynamic interplay of cognitive, metacognitive and emotional processes in future primary teachers' engagement in collaborative inquiry-based science activities. A comprehensive intervention based on these insights aims to determine how scaffolding productive engagement can improve the quality of primary teachers' preparation for inquiry-based science.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
Emotional learning in socioscientific issues for enhancement of scientific literacy. This project will aim to address international concerns about waning student interest and participation in science by engaging middle school students imaginatively in socioscientific issues. Expected outcomes will enhance students' scientific literacy, and the production of positive emotional energy and the classroom emotional climate.
Collaborative learning in Australia and China. This project aims to investigate aspects of learning for which “the social” is the most fundamental and useful level of explanation, modelling and instructional intervention. Interactive problem solving and learning are priorities in contemporary education, but have proven difficult to research. This project will use Australian and Chinese research facilities to investigate social interactions and classroom learning by strategically orchestrating co ....Collaborative learning in Australia and China. This project aims to investigate aspects of learning for which “the social” is the most fundamental and useful level of explanation, modelling and instructional intervention. Interactive problem solving and learning are priorities in contemporary education, but have proven difficult to research. This project will use Australian and Chinese research facilities to investigate social interactions and classroom learning by strategically orchestrating conditions for collaborative problem solving and knowledge construction by mathematics students in two very different cultures and pedagogical traditions. Outcomes from this project are expected to identify and optimise the function of social interaction in learning.Read moreRead less
Love Maths, Why Not? Developing Students’ Positive Learning Identities and Engagement in Mathematics. Mathematics is the foremost enabling science that underpins research, development and innovation in every aspect of society. Recent trends in mathematics education show that attitude, confidence and a sense of personal relevance play an influential role in student engagement and achievement. Yet Australian students’ achievement in mathematics has plateaued, and participation in mathematics is st ....Love Maths, Why Not? Developing Students’ Positive Learning Identities and Engagement in Mathematics. Mathematics is the foremost enabling science that underpins research, development and innovation in every aspect of society. Recent trends in mathematics education show that attitude, confidence and a sense of personal relevance play an influential role in student engagement and achievement. Yet Australian students’ achievement in mathematics has plateaued, and participation in mathematics is steadily declining. This study combines innovative pedagogical research in mathematics with research of positive learning identity and engagement to develop knowledge about educational practices that sustain the attention and positive engagement of our nations’ future mathematicians, scientists and mathematically fluent citizenry. Read moreRead less
The roles of scientific diagrams in contributing to science achievement and conceptual change. The project is designed to develop a body of research that facilitates excellence in teaching and in learning scientific diagrams in secondary school science. Benefits will include the dissemination of effective pedagogical strategies and improved science achievement measured by conceptual change from both cognitive and affective perspectives.
Accelerating the mathematics learning of low socio-economic status junior secondary students. This project aims to develop theory that will enable mathematics programs to be constructed to accelerate Years 8-9 students’ learning to the point that Years 10-12 mathematics can be accessed and employment and life chances increased.
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.
Secondary and university mathematics: do they speak the same language? This project seeks innovative reasons for low progression rates of students in mathematical sciences subjects in Australia. It will examine students' symbol use at university and explore how it differs from the use at school. It will also examine links between students' response to increased symbolic load and their confidence to continue studying subjects with high mathematical content at university. Theoretical outcomes are ....Secondary and university mathematics: do they speak the same language? This project seeks innovative reasons for low progression rates of students in mathematical sciences subjects in Australia. It will examine students' symbol use at university and explore how it differs from the use at school. It will also examine links between students' response to increased symbolic load and their confidence to continue studying subjects with high mathematical content at university. Theoretical outcomes are expected to include new applications of epistemology and didactics theories and identification of key components of symbol load (for example, symbolic density, symbol familiarity) to describe how mathematical practices change with educational level. Practical outcomes are expected to include advice for educators with examples across the mathematical sciences.Read moreRead less