Investigating ways to enhance teachers' science explanations and students' concept learning using cycles of reflective explanations. Explanation is central to learning because teachers explain phenomena to students and students are assessed on their explanations to other students and the teacher. Teacher explanations are not always effective and many lower secondary students provide descriptions when an explanation is needed. This projects aims for three outcomes: first, it researches teacher ....Investigating ways to enhance teachers' science explanations and students' concept learning using cycles of reflective explanations. Explanation is central to learning because teachers explain phenomena to students and students are assessed on their explanations to other students and the teacher. Teacher explanations are not always effective and many lower secondary students provide descriptions when an explanation is needed. This projects aims for three outcomes: first, it researches teacher explanations for teachers. Second, it researches student-student and student-teacher explanations to find which explanatory types maximise concept learning; and third, it evaluates a cycle of reflective explanations model for enhancing science teacher explanations.Read moreRead less
Conceptual complexity and student engagement with science in secondary school. Research demonstrates that negative student attitudes to school science are associated with the subject's difficulty and its lack of relevance to real-world experience. However, teachers who link learning to students' experience may exacerbate the difficulty of science, because real-world applications of concepts are complex. This study will initially investigate teachers' perceptions of this dilemma, and then focus ....Conceptual complexity and student engagement with science in secondary school. Research demonstrates that negative student attitudes to school science are associated with the subject's difficulty and its lack of relevance to real-world experience. However, teachers who link learning to students' experience may exacerbate the difficulty of science, because real-world applications of concepts are complex. This study will initially investigate teachers' perceptions of this dilemma, and then focus on two classrooms where teachers acknowledge the complexity involved. Using a novel conceptual framework and an innovative data collection technique the study will explore how the students? experiences of complexity shape their attitudes to science. The findings will help improve student engagement with science.Read moreRead less
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
Discovery Indigenous Researchers Development - Grant ID: DI0668328
Funder
Australian Research Council
Funding Amount
$159,713.00
Summary
Indigenous world view, algebra pedagogy and improving Indigenous performance in secondary mathematics. Schools have low mathematics expectations for Indigenous students; low performance is blamed on their culture which is seen as primitive and instruction is reduced to repetitive rote learning of computation. There is evidence that Indigenous students could excel in mathematics if it is contextualised and taught from patterns and structure. A theory showing how Indigenous students can develop st ....Indigenous world view, algebra pedagogy and improving Indigenous performance in secondary mathematics. Schools have low mathematics expectations for Indigenous students; low performance is blamed on their culture which is seen as primitive and instruction is reduced to repetitive rote learning of computation. There is evidence that Indigenous students could excel in mathematics if it is contextualised and taught from patterns and structure. A theory showing how Indigenous students can develop strong mathematical understandings would provide a counter to accepted wisdom of low performance and a model for future Indigenous student attainment. Making mathematics-based University disciplines a reality for Indigenous students will benefit individual students, their community and the economic future of Australia.Read moreRead less
ENHANCING SCIENCE LEARNING THROUGH A FOCUS ON MULTIPLE AND MULTI-MODAL REPRESENTATIONS OF CONCEPTS. This project draws on recent theoretical accounts of multiple and multi-modal representations of science understandings to devise, trial and evaluate new approaches to teaching and learning science concepts. These approaches, catering for diverse learning pathways, focus on student understanding that representations of scientific knowledge are multi-modal and interconnected. The project is signifi ....ENHANCING SCIENCE LEARNING THROUGH A FOCUS ON MULTIPLE AND MULTI-MODAL REPRESENTATIONS OF CONCEPTS. This project draws on recent theoretical accounts of multiple and multi-modal representations of science understandings to devise, trial and evaluate new approaches to teaching and learning science concepts. These approaches, catering for diverse learning pathways, focus on student understanding that representations of scientific knowledge are multi-modal and interconnected. The project is significant in providing an innovative way to engage upper primary and junior secondary students in regional and rural Australian contexts in learning science, and is expected to promote more effective learning and more positive student attitudes to the subject.Read moreRead less
Examining the relationship between the documented curriculum, classroom tasks, and the learning of mathematics. There is an obvious connection between maximizing mathematics learning of young people and the nation's future. Currently many young people are missing opportunities for learning mathematics at school, and this not only reduces their own opportunities, but also increases their risk of long term dependence on government services. At the same time, mathematics is increasingly necessary f ....Examining the relationship between the documented curriculum, classroom tasks, and the learning of mathematics. There is an obvious connection between maximizing mathematics learning of young people and the nation's future. Currently many young people are missing opportunities for learning mathematics at school, and this not only reduces their own opportunities, but also increases their risk of long term dependence on government services. At the same time, mathematics is increasingly necessary for tertiary study in a range of fields, and the number of students choosing the highest level of mathematics is declining. The project will evaluate the types of tasks that teachers can use to engage all students in learning mathematics effectively, while preserving options for those students who may choose to specialise in tertiary mathematics study.Read moreRead less
Designing technology-enriched pedagogy in secondary mathematics education. The Australian Government's "Agenda for Action" emphasises the need to foster innovation in mathematics teaching and teacher education, and encourages teachers to embrace technologies that enhance student learning. Yet international research shows that successful innovation in teaching with technology has been elusive. This project will develop new theoretical understanding of why technology-related innovation in secondar ....Designing technology-enriched pedagogy in secondary mathematics education. The Australian Government's "Agenda for Action" emphasises the need to foster innovation in mathematics teaching and teacher education, and encourages teachers to embrace technologies that enhance student learning. Yet international research shows that successful innovation in teaching with technology has been elusive. This project will develop new theoretical understanding of why technology-related innovation in secondary school mathematics teaching takes hold in some educational settings but not others. The findings will lead to practical recommendations for design of teacher professional development programs, and shed light on reasons why teachers may embrace or reject educational change.Read moreRead less
Crisis in chemistry: How do we best teach particle concepts for understanding? Fundamental chemistry knowledge is essential in the information age because citizens and professionals need to make informed decisions about GM technology, pollution and how to teach science. Chemistry learning is compromised by recurring intuitive and taught misconceptions about atoms and molecules. The widely documented misconceptions emphasise what students cannot do. This unique project studies students, teachers ....Crisis in chemistry: How do we best teach particle concepts for understanding? Fundamental chemistry knowledge is essential in the information age because citizens and professionals need to make informed decisions about GM technology, pollution and how to teach science. Chemistry learning is compromised by recurring intuitive and taught misconceptions about atoms and molecules. The widely documented misconceptions emphasise what students cannot do. This unique project studies students, teachers and international chemistry educators to develop a theoretical and practical model of what students can understand and do in primary, secondary and university chemistry with respect to atoms and molecules. The research will significantly improve chemistry teaching at the macroscopic, microscopic and symbolic levels.Read moreRead less
Learning essential knowledge by design: Promoting and connecting mathematics and science in the middle years of schooling. In the international setting, Australia's scientific and technical competitiveness is under threat. In the US this similar threat has elicited responses that focus on new mathematics and science teachers and teacher professional learning. This project aligns with major national and state initiatives to develop curricula that promote essential learnings and standards without ....Learning essential knowledge by design: Promoting and connecting mathematics and science in the middle years of schooling. In the international setting, Australia's scientific and technical competitiveness is under threat. In the US this similar threat has elicited responses that focus on new mathematics and science teachers and teacher professional learning. This project aligns with major national and state initiatives to develop curricula that promote essential learnings and standards without losing sight of current educational approaches such as middle years of schooling. The project will explore research-based, integrated pedagogies, content and assessment to provide Australian teachers with new ways of engaging students with the mathematics and science curricula.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