Knowledge for teaching primary mathematics: How teachers' pedagogical content knowledge develops and affects classroom practices and students' mathematics achievement. The study will investigate mathematics teaching in upper primary school, to identify the influence of teachers? mathematics-specific pedagogical knowledge, first on teaching practice and subsequently on students? learning outcomes. Case study evidence shows this influence is strong, but statistical evidence shows it is weak. This ....Knowledge for teaching primary mathematics: How teachers' pedagogical content knowledge develops and affects classroom practices and students' mathematics achievement. The study will investigate mathematics teaching in upper primary school, to identify the influence of teachers? mathematics-specific pedagogical knowledge, first on teaching practice and subsequently on students? learning outcomes. Case study evidence shows this influence is strong, but statistical evidence shows it is weak. This study aims to resolve this paradox by employing quality data that probes the heart of teaching and learning mathematics within a statistical study. The growth of knowledge and classroom practices of teachers graduating from two contrasting pre-service programs will also be tracked, to inform recommendations on the nature of discipline-specific pedagogical knowledge in teacher training.Read moreRead less
Blended learning in schools, TAFE and universities: experience, principles, patterns and practice. Effective use of technology in education depends upon the teacher's understanding of good ways to support learning. New uses of technology to improve learning are emerging constantly: the challenge is to share good practice. This project focuses on investigating the quality of blended learning experiences and using the outcomes to identify and share good practice using a format called a 'design pa ....Blended learning in schools, TAFE and universities: experience, principles, patterns and practice. Effective use of technology in education depends upon the teacher's understanding of good ways to support learning. New uses of technology to improve learning are emerging constantly: the challenge is to share good practice. This project focuses on investigating the quality of blended learning experiences and using the outcomes to identify and share good practice using a format called a 'design pattern'. Design patterns combine research-based evidence and the knowledge of experienced practitioners in a format which is relatively easy to communicate, learn and apply. They are not yet used in teaching with technology. We will generate and test design patterns for learning through discussion in technology-based and other classroom settings.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0211588
Funder
Australian Research Council
Funding Amount
$120,000.00
Summary
The Classroom Learning Laboratory. A facility is proposed to support the collection, configuration, storage and analysis of data (particularly video data) related to learning and teaching in classrooms. The Co-Applicants currently direct major projects at all levels of institutionalised education from early-years to tertiary, particularly in mathematics and technology education. The facility will provide the infrastructure for several large-scale projects involving many researchers and in the l ....The Classroom Learning Laboratory. A facility is proposed to support the collection, configuration, storage and analysis of data (particularly video data) related to learning and teaching in classrooms. The Co-Applicants currently direct major projects at all levels of institutionalised education from early-years to tertiary, particularly in mathematics and technology education. The facility will provide the infrastructure for several large-scale projects involving many researchers and in the long-term has the potential to catalyse new activity by educational researchers throughout Australia and significant overseas collaborative involvement. The proposed facility addresses a growing need locally, nationally, and internationally, offering both data storage and efficient access for analysis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237936
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Research facility for plastics and composites : Dynamic Mechanical Analyser and Rheometer System. The Dynamic Mechanical Analyser (DMA) and Control Stress Rheometer System is a unique set of equipment where both instruments can be run simultaneously using the same controller module. The DMA can provide quantitative and qualitative information on high spectrum of mechanical and rheological properties of materials in solid state. The Rheometer complements the DMA by providing information about pro ....Research facility for plastics and composites : Dynamic Mechanical Analyser and Rheometer System. The Dynamic Mechanical Analyser (DMA) and Control Stress Rheometer System is a unique set of equipment where both instruments can be run simultaneously using the same controller module. The DMA can provide quantitative and qualitative information on high spectrum of mechanical and rheological properties of materials in solid state. The Rheometer complements the DMA by providing information about properties of materials in liquid state. The equipment will be used both for academic research of plastic, ceramic and composite materials and for industrial projects in the areas of material processing, recycling of plastics and for building a database of material's properties. Read moreRead less
Special Research Initiatives - Grant ID: SR0354538
Funder
Australian Research Council
Funding Amount
$30,000.00
Summary
Enabling Sciences Education (EnSE) Research Network. The Network aims to ensure the long-term ability of Australians to excel in scientific and technological innovation at all levels of community activity. This will be achieved by establishing significant and ambitious research agendas for improving the teaching and learning of Mathematics, Science and Technology in primary, secondary and tertiary education sectors. Of significance will be the productive synergies flowing from uniting, across ....Enabling Sciences Education (EnSE) Research Network. The Network aims to ensure the long-term ability of Australians to excel in scientific and technological innovation at all levels of community activity. This will be achieved by establishing significant and ambitious research agendas for improving the teaching and learning of Mathematics, Science and Technology in primary, secondary and tertiary education sectors. Of significance will be the productive synergies flowing from uniting, across the three disciplines, Australia's most outstanding, experienced and dedicated researchers with new and mid-career colleagues. Expected outcomes include a diverse but cohesive and collaborative research community that provides international leadership in helping students achieve their full potential. Read moreRead less
Statistical literacy in the education workplace: Barriers and enablers for school personnel making data-driven decisions. Using quantitative data to monitor workplace processes and improve quality requires both strong statistical literacy and commitment to such decision-making processes. This study of data usage by school personnel will contribute to the success of the National Assessment Program that monitors progress towards the National Goals for Schooling in the 21st Century. It will provide ....Statistical literacy in the education workplace: Barriers and enablers for school personnel making data-driven decisions. Using quantitative data to monitor workplace processes and improve quality requires both strong statistical literacy and commitment to such decision-making processes. This study of data usage by school personnel will contribute to the success of the National Assessment Program that monitors progress towards the National Goals for Schooling in the 21st Century. It will provide evidence from which to enhance professional learning in data interpretation for both pre- and in-service teachers. The resulting research template has application for examining (a) statistical literacy needs in other sectors and (b) workers' perceptions of quantitative data used to inform decision-making. This will enhance the smart use of data in the workplace.Read moreRead less
School-University e-Learning research partnerships for scaling up innovation. Despite optimism about new technologies for learning, e-learning innovation has been slow to scale up. This project tests a novel research strategy for engaging schools sustainably with e-learning. Teams of students (school and university), teachers (including beginning teachers), community members, consultants and e-learning researchers are constituted, in schools, to identify, collaboratively, hard-to-learn (technolo ....School-University e-Learning research partnerships for scaling up innovation. Despite optimism about new technologies for learning, e-learning innovation has been slow to scale up. This project tests a novel research strategy for engaging schools sustainably with e-learning. Teams of students (school and university), teachers (including beginning teachers), community members, consultants and e-learning researchers are constituted, in schools, to identify, collaboratively, hard-to-learn (technology-and-science) concepts and effective teaching approaches, develop ways of exploiting new media to teach such concepts and scale up their solutions within and beyond their schools. Re-conceiving the problem so students and teachers gain equity as e-learning researchers yields a model for scholarly, future-oriented educational renewal.Read moreRead less
Re-balancing global resources: Manipulating toxic prussic acid (dhurrin) to improve nitrogen use efficiency in forage sorghum in a changing climate. Sorghum is grown widely is Australia and world-wide for forage, grain (mostly for animal feed) and biofuels. It grows well in dry areas. The problem is that the leaves contain a toxin that releases prussic acid (cyanide) that can reduce animal production or even kill stock feeding on it, especially when water stressed. The problem will get worse wit ....Re-balancing global resources: Manipulating toxic prussic acid (dhurrin) to improve nitrogen use efficiency in forage sorghum in a changing climate. Sorghum is grown widely is Australia and world-wide for forage, grain (mostly for animal feed) and biofuels. It grows well in dry areas. The problem is that the leaves contain a toxin that releases prussic acid (cyanide) that can reduce animal production or even kill stock feeding on it, especially when water stressed. The problem will get worse with climate change. Low-cyanide plants developed by us using non-GM methods grow fast, but accumulate nitrate instead which is also toxic. This is a waste of expensive fertiliser too. We aim to develop plants that divert resources to growth instead of toxins in order to reduce fertiliser use and help prepare for the future. The fast growing plants may also be useful as a biofuel crop.Read moreRead less