The Effect of Historical-Investigative Teaching about Pendulum Motion on High School Students Understanding of the Nature of Science. This project will investigate the impact of historical investigative teaching about pendulum motion on students understanding of the nature of science - its methodology, its relationship to technology, and its interrelationship with society and culture. The project emerges from my well-reviewed book "Time for Science Education" (Kluwer,2000) that discusses the his ....The Effect of Historical-Investigative Teaching about Pendulum Motion on High School Students Understanding of the Nature of Science. This project will investigate the impact of historical investigative teaching about pendulum motion on students understanding of the nature of science - its methodology, its relationship to technology, and its interrelationship with society and culture. The project emerges from my well-reviewed book "Time for Science Education" (Kluwer,2000) that discusses the historical, methodological, technical and social aspects of the discovery of the laws of pendulum motion in the 17th Century. As the pendulum is a ubiquitous topic in primary and secondary school science programmes, the approach could make a significant contribution to raising public understanding of science.Read moreRead less
Generating Science Content Knowledge through Digital Animation in a Knowledge-building Community of Preservice Teachers. Sustaining Australia's growth and prosperity is dependent on continuous innovation in the teaching of science. Yet science is one of the least taught subjects in the primary curriculum because teachers lack content knowledge and confidence. This research engages preservice primary teachers in using new technologies to develop their understanding of science content knowledge th ....Generating Science Content Knowledge through Digital Animation in a Knowledge-building Community of Preservice Teachers. Sustaining Australia's growth and prosperity is dependent on continuous innovation in the teaching of science. Yet science is one of the least taught subjects in the primary curriculum because teachers lack content knowledge and confidence. This research engages preservice primary teachers in using new technologies to develop their understanding of science content knowledge through digital animation and to collaborate with other preservice teachers interstate and internationally. The products and processes of digital animation will help maintain and expand Australia's base as a knowledge economy as well as provide a social benefit of improved science teaching in schools. Read moreRead less
Space to Grow: The Faulkes Telescope and improving science engagement in schools. Exceptional opportunities exist to engage, develop and enrich science students and their teachers through access to the cutting-edge Faulkes Telescopes (FTs). The FT South (sited in Australia) is the world's largest dedicated to educational use with Australia enjoying a 15% share as the host country of this exceptional educational initiative. Operated remotely via the internet, the FT provides natural links to ICT, ....Space to Grow: The Faulkes Telescope and improving science engagement in schools. Exceptional opportunities exist to engage, develop and enrich science students and their teachers through access to the cutting-edge Faulkes Telescopes (FTs). The FT South (sited in Australia) is the world's largest dedicated to educational use with Australia enjoying a 15% share as the host country of this exceptional educational initiative. Operated remotely via the internet, the FT provides natural links to ICT, on-line learning, physics, astronomy and mathematics. Given appropriate support, it can play a valuable role in re-engaging students in science and enhancing science education and literacy outcomes in Australian schools over the next 20 years.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
Using immersive virtual reality to enhance students’ science visualisation. This project aims to investigate the potential of advanced visualisation technology, immersive virtual reality, as a collaborative learning environment to support students to explore their ideas and learn a core chemistry concept, molecular structures and functions. Incorporating both data analytics and qualitative video analysis, the project will establish a deep understanding of how students learn about the molecular w ....Using immersive virtual reality to enhance students’ science visualisation. This project aims to investigate the potential of advanced visualisation technology, immersive virtual reality, as a collaborative learning environment to support students to explore their ideas and learn a core chemistry concept, molecular structures and functions. Incorporating both data analytics and qualitative video analysis, the project will establish a deep understanding of how students learn about the molecular world within an immersive virtual reality environment in relation to the learners’ experience, chemistry content, visual representations, learning tasks, and design features. The project will recommend evidence-driven design considerations for learning resources development and further educational research with advanced technologies.Read moreRead less
The online future of Science and Engineering education: The essential elements of laboratory-based learning for remote-access implementation. Laboratory classes are a critical part of science and engineering degree programs, but there has been little research into what actually takes place within them. Remote laboratories, in which students control equipment via the internet, are one potential solution for accommodating rising numbers of students, but the interfaces must be developed to effectiv ....The online future of Science and Engineering education: The essential elements of laboratory-based learning for remote-access implementation. Laboratory classes are a critical part of science and engineering degree programs, but there has been little research into what actually takes place within them. Remote laboratories, in which students control equipment via the internet, are one potential solution for accommodating rising numbers of students, but the interfaces must be developed to effectively support student learning. This project will investigate how students interact with equipment, each other, and with laboratory demonstrators in order to determine the crucial components of effective laboratory learning experiences. It will identify and characterise the interactions of students in laboratory classes, and develop mechanisms to support these interactions remotely.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
Learning the complexity of scientific knowledge about climate change with computer modelling and visualization technologies. This project provides benefits to the national priorities of a environmentally sustainable Australia; and frontier technologies for building and transforming Australian industries. The project helpins students in Australia more deeply understand the sciences that underlie environmental sustainability. Learning with modelling and visualization technologies will help student ....Learning the complexity of scientific knowledge about climate change with computer modelling and visualization technologies. This project provides benefits to the national priorities of a environmentally sustainable Australia; and frontier technologies for building and transforming Australian industries. The project helpins students in Australia more deeply understand the sciences that underlie environmental sustainability. Learning with modelling and visualization technologies will help students learn important scientific knowledge and prepare them for the use of frontier technologies that are becoming infused into the practices of scientists and professionals in many fields. This project also directly contributes to the national Digital Education Revolution initiative.Read moreRead less
Investigating the effects and maximising the benefits of increased physical activity and reduced sedentary behaviour on wellbeing in youth. Lack of physical activity and the time that young people spend sedentary and alone staring into television and computer screens, are major public health issues. This project aims to explore how changes in physical activity and sedentary behaviour might influence health and wellbeing in young Australians. It will also involve the evaluation of an innovative s ....Investigating the effects and maximising the benefits of increased physical activity and reduced sedentary behaviour on wellbeing in youth. Lack of physical activity and the time that young people spend sedentary and alone staring into television and computer screens, are major public health issues. This project aims to explore how changes in physical activity and sedentary behaviour might influence health and wellbeing in young Australians. It will also involve the evaluation of an innovative school-based intervention targeting these outcomes. This project has the potential to bring physical and mental health benefits to current and future Australians.Read moreRead less
The Quality of Learning as Students Create Digital Explanations of Science. University science learners will become our future scientists and science teachers and thus need to develop content expertise and communications skills during their studies. This interdisciplinary project will examine the quality of learning as university science students create digital explanations of science concepts. Learning with digital technologies is increasingly common across many science contexts and this projec ....The Quality of Learning as Students Create Digital Explanations of Science. University science learners will become our future scientists and science teachers and thus need to develop content expertise and communications skills during their studies. This interdisciplinary project will examine the quality of learning as university science students create digital explanations of science concepts. Learning with digital technologies is increasingly common across many science contexts and this project aims to develop evidence about the quality and durability of the science learning as well as theoretical insights about multimodal literacy development in the process of creating digital explanations. Research into the quality of learning resulting from innovative strategies to learn science through digital technologies is significant for the future of Australia’s knowledge economy and creating a digital explanation shows promise for enhancing both engagement and quality of learning among university science students.Read moreRead less