Conceptual play: foregrounding imagination and cognition during concept formation in early years science education. The National Quality agenda has created the need for better understanding learning in early childhood. This study seeks to find out how the imagination of preschool aged children helps them to learn scientific concepts. The outcomes will help early childhood educators in childcare centres and kindergartens to teach science to young children.
Scientific play-worlds: Researching play, imagination and science teaching. This project aims to investigate how imaginative play, as a pedagogy of science teaching, promotes children’s scientific visualisation and imagination in contexts of contradiction and drama. The project expects to generate new knowledge about teaching science to infants, toddlers and preschoolers in play-based settings. The expected outcome is an evidence-based model of early childhood science teaching and a method for m ....Scientific play-worlds: Researching play, imagination and science teaching. This project aims to investigate how imaginative play, as a pedagogy of science teaching, promotes children’s scientific visualisation and imagination in contexts of contradiction and drama. The project expects to generate new knowledge about teaching science to infants, toddlers and preschoolers in play-based settings. The expected outcome is an evidence-based model of early childhood science teaching and a method for measuring imagination in scientific play. Potential benefits include improved pre-service and in-service education and improved cognitive outcomes young children in their formative years.Read moreRead less
Affective imagination in science education: exploring the emotional nature of scientific and technological learning and engaging children and teachers. Children are born into an increasingly complex world and knowing how to engage with technologies and to think scientifically is central, yet preschool teachers are becoming reluctant to teach science. This project explores the emotional dimension of concept formation, so as to generate methodologies that engage teachers to teach more science.
An investigation into the relations between imaginary situations and scientific abstractions in preschool digital play. Imaginative play is the leading activity of preschoolers. But imagination is also important in scientific work, for example in the work of Niels Bohr and Barbara McClintock. Aided through digital tablet technology to create animations of scientific learning, this study examines how imaginative play helps children to imagine scientific explanations not visibly supported in real ....An investigation into the relations between imaginary situations and scientific abstractions in preschool digital play. Imaginative play is the leading activity of preschoolers. But imagination is also important in scientific work, for example in the work of Niels Bohr and Barbara McClintock. Aided through digital tablet technology to create animations of scientific learning, this study examines how imaginative play helps children to imagine scientific explanations not visibly supported in real life, such as the Earth circling the Sun, or science concepts not directly observable, such as, how sugar dissolves faster in hot water. Studying imagination in play and imagination in science will contribute to new understandings about the nature of science teaching in preschools.Read moreRead less
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.
Moments in time: investigating a national history curriculum in early childhood settings and primary classrooms. The focus of this project will be the teaching and the learning of History in early childhood settings and primary classrooms located in Queensland, New South Wales and Victoria. Findings from the project will provide evidence-based curricular and pedagogical theorising of effective and productive teaching and learning of History in those contexts.
Social and geographical location and its impact on mathematics teaching and learning. Too many students from poor urban backgrounds or from rural communities are at risk of underperforming in school mathematics. This project identifies the critical factors that contribute to this failure and seeks to develop improved practices to enable greater access to school mathematics.
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.
Equity and spatial reasoning in students’ mathematics development. The project aims to understand the influence of Spatial-Reasoning on school mathematics. Spatial-Reasoning skills are a significant predictor of achievement in mathematics, and will become increasingly necessary in digital and dynamic environments. Opportunities for disadvantaged students to develop such reasoning skills are limited; they are typically not taught in schools. The project investigates the role and nature of Spatial ....Equity and spatial reasoning in students’ mathematics development. The project aims to understand the influence of Spatial-Reasoning on school mathematics. Spatial-Reasoning skills are a significant predictor of achievement in mathematics, and will become increasingly necessary in digital and dynamic environments. Opportunities for disadvantaged students to develop such reasoning skills are limited; they are typically not taught in schools. The project investigates the role and nature of Spatial-Reasoning in students’ mathematics development; and substantiates the long-term effect of a spatial learning programme on educationally disadvantaged students’ mathematics performance and reasoning. This project is expected to improve disadvantaged students’ spatial reasoning and mathematics skills and their life opportunities.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