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
Discovery Early Career Researcher Award - Grant ID: DE160101053
Funder
Australian Research Council
Funding Amount
$369,000.00
Summary
Engaging Science Students Emotionally by Fostering Positive Social Bonds. To address the problem of student disaffection with junior school science, this project aims to identify characteristics of interpersonal relationships or social bonds between teachers and students, and students and peers, that influence classroom learning and emotional engagement with science. Increasing engagement in the disciplines of science, technology, engineering and mathematics is important for supporting Australia ....Engaging Science Students Emotionally by Fostering Positive Social Bonds. To address the problem of student disaffection with junior school science, this project aims to identify characteristics of interpersonal relationships or social bonds between teachers and students, and students and peers, that influence classroom learning and emotional engagement with science. Increasing engagement in the disciplines of science, technology, engineering and mathematics is important for supporting Australia’s economic future. Facilitating positive social bonds in science classrooms is likely to improve student engagement. Outcomes from the study are expected to benefit educators, researchers, and policy-makers by identifying ways of fostering positive social bonds and facilitating engagement and learning in 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
Data analytics-based tools and methods to enhance self-regulated learning. This project aims to develop student self-regulated learning skills by harnessing the potential of Big Data analytics. The project expects to generate new knowledge at the intersection of learning analytics, educational technology, learning sciences and teaching practice resulting from novel data collection and analysis tools and methods. The outputs are expected to include insights into metacognitive, motivational, and t ....Data analytics-based tools and methods to enhance self-regulated learning. This project aims to develop student self-regulated learning skills by harnessing the potential of Big Data analytics. The project expects to generate new knowledge at the intersection of learning analytics, educational technology, learning sciences and teaching practice resulting from novel data collection and analysis tools and methods. The outputs are expected to include insights into metacognitive, motivational, and technical issues facing analytics-based personalised feedback. The outcomes are intended to offer benefits for developing pedagogical and the design of educational technology. The outcomes can result in improved student learning outcomes in higher education to ensure graduates are prepared for the digital economy.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.
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
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.
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
New play pedagogies for teaching and learning in the early years. Traditional play-based learning in early childhood education cannot account for new play: very young children's everyday play with technologies, digital media and popular culture. This project uses a recently developed web-mapping tool to create a pedagogical approach to new play. The pedagogical approach to new play comprises teaching practices and learning outcomes that capitalise on the educational potential of children's every ....New play pedagogies for teaching and learning in the early years. Traditional play-based learning in early childhood education cannot account for new play: very young children's everyday play with technologies, digital media and popular culture. This project uses a recently developed web-mapping tool to create a pedagogical approach to new play. The pedagogical approach to new play comprises teaching practices and learning outcomes that capitalise on the educational potential of children's everyday play with technologies, digital media and popular culture. It aims to enable teachers to work from a theorised and empirically validated perspective for connecting young children's everyday play with technologies, digital media and popular culture artefacts to their 21st century learning needs.Read moreRead less
Eventful learning in quality pre-service science teacher education. The study aims to build a theory that explains quality in science teacher education by identifying successful learning-teaching events across programs of university science teacher education. This theory will guide wider application of eventful learning practices at university to enhance the successful entry of new teachers to the profession.