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.
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.
Investigating the relationship between teacher expectations, student persistence and the learning of mathematics. There is a culture in many classrooms in which teachers are encouraged by students to pose easy tasks. The project will explore what is needed to encourage students to embrace challenges and to persist even when tasks are difficult. The outcome will be enhanced mathematics learning and improved student confidence.
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
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.
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
Sustainable Mathematical Foundations: STEM-enriched Modelling . This longitudinal project aims to generate new knowledge on how sustainable, innovative mathematics learning can be fostered through STEM-enriched mathematical modelling across the early grades. Featuring interdisciplinary processes, including engineering and science, novel modelling sequences will prompt children to adapt their existing ways of mathematical thinking to develop conceptual innovations in solving future-oriented pr ....Sustainable Mathematical Foundations: STEM-enriched Modelling . This longitudinal project aims to generate new knowledge on how sustainable, innovative mathematics learning can be fostered through STEM-enriched mathematical modelling across the early grades. Featuring interdisciplinary processes, including engineering and science, novel modelling sequences will prompt children to adapt their existing ways of mathematical thinking to develop conceptual innovations in solving future-oriented problems. New theoretical and empirical frameworks are expected to transform our outmoded problem experiences to ones that challenge all children to reach their mathematical potential. Professional learning, informed by international collaboration, is expected to transcend existing teacher development modes.Read moreRead less
Engaging Students during the Early Years of Secondary School. This project aims to design, test and share sustainable strategies to support teachers and enable students from low socioeconomic communities to achieve success. The greatest decreases in students’ interest and effort occur when they transition into secondary school, with students from low socioeconomic communities at greatest risk of disengagement. What can teachers do to engage their students during this key life transition? This pr ....Engaging Students during the Early Years of Secondary School. This project aims to design, test and share sustainable strategies to support teachers and enable students from low socioeconomic communities to achieve success. The greatest decreases in students’ interest and effort occur when they transition into secondary school, with students from low socioeconomic communities at greatest risk of disengagement. What can teachers do to engage their students during this key life transition? This project plans to identify teacher behaviours that motivate students in their first year at secondary school. Using an experimental design with a representative sample of 150 teachers and 1500 students in low socioeconomic areas across three states, the project plans to test whether an online professional learning program for teachers can improve student engagement and achievement. This cost-effective and scalable intervention is designed for widespread dissemination to Australian teachers.Read moreRead less
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
Exploring Problem Based Learning in schools . This project investigates the potential contribution of Problem Based Learning to school based Science, Technology, Engineering, Mathematics (STEM) education. The project expects to generate new knowledge about how the principles defining this PBL approach can support primary and secondary teachers to enhance learning opportunities and build STEM literacy. The project actively positions teachers as researchers interrogating their practice. Expected ....Exploring Problem Based Learning in schools . This project investigates the potential contribution of Problem Based Learning to school based Science, Technology, Engineering, Mathematics (STEM) education. The project expects to generate new knowledge about how the principles defining this PBL approach can support primary and secondary teachers to enhance learning opportunities and build STEM literacy. The project actively positions teachers as researchers interrogating their practice. Expected project outcomes include a pedagogical framework developed with teachers, and illustrations of practice capturing problem based learning in a range of school settings. Potential benefits include support for teachers, school leadership and sectors seeking to enhance STEM education.Read moreRead less