Download Free The Status And Quality Of Teaching And Learning Of Science In Australian Schools Book in PDF and EPUB Free Download. You can read online The Status And Quality Of Teaching And Learning Of Science In Australian Schools and write the review.

In August 2005, over 500 researchers from the field of science education met at the 5th European Science Education Research Association conference. Two of the main topics at this conference were: the decrease in the number of students interested in school science and concern about the worldwide outcomes of studies on students’ scientific literacy. This volume includes edited versions of 37 outstanding papers presented, including the lectures of the keynote speakers.
In this ground-breaking book science education is explored as a learning continuum across all years of schooling from Foundation to Year 12. The expert authors, members of Monash University's Science Education Research Group, seek to build pedagogical and content expertise by providing both a level of support and challenge for all teachers based on current research and best practice. The text considers key issues including: what the learner brings to the science classroom; what primary and secondary teachers can learn from each other; the constructivist perspective and its value in learning science; context-based science education; the structure of the Australian curriculum and science education policy; teacher identity; the nature of scientific knowledge; principles of assessment and understanding the role of ICT in science teaching and learning. Featuring case studies and practical examples in each chapter, this book provides pre-service teachers with the understanding and tools to ensure their students are engaged and inspired in science education throughout their school years.
Brings teaching primary science to life, with dedicated chapters for chemistry, physics, biology and earth and environmental science.
This volume considers the future of science learning - what is being learned and how it is being learned - in formal and informal contexts for science education. To do this, the book explores major contemporary shifts in the forms of science that could or should be learned in the next 20 years, what forms of learning of that science should occur, and how that learning happens, including from the perspective of learners. In particular, this volume addresses shifts in the forms of science that are researched and taught post-school – emerging sciences, new sciences that are new integrations, “futures science”, and increases in the complexity and multidisciplinarity of science, including a multidisciplinarity that embraces ways of knowing beyond science. A central aspect of this in terms of the future of learning science is the urgent need to engage students, including their non-cognitive, affective dimensions, both for an educated citizenry and for a productive response to the ubiquitous concerns about future demand for science-based professionals. Another central issue is the actual impact of ICT on science learning and teaching, including shifts in how students use mobile technology to learn science.
If the status and quality of science education in schools is to improve, efforts need to be made to better understand the classroom practices of effective science teachers. Teachers are key players in a re-imagining of science education. This book explores how two primary school teachers, identified as effective practitioners, approached science teaching and learning over a unit of work. In recording the teaching and learning experiences in their classrooms, the author highlights how the two teachers adopted different approaches, drawing on their particular beliefs and knowledge, to support student learning in science in ways that were appropriate to their contexts as well as reflected their different experiences, strengths and backgrounds. Through sharing their stories, this book illustrates, that due to the complex nature of teaching and learning, there is no one way of defining effectiveness. In documenting this research, it is hoped that other teachers and teacher educators will be inspired to think about primary school science education in innovative ways.
While the great scientists of the past recognized a need for a multidisciplinary approach, today’s schools often treat math and science as subjects separate from the rest. This not only creates a disinterest among students, but also a potential learning gap once students reach college and then graduate into the workforce. Cases on Research-Based Teaching Methods in Science Education addresses the problems currently facing science education in the USA and the UK, and suggests a new hands-on approach to learning. This book is an essential reference source for policymakers, academicians, researchers, educators, curricula developers, and teachers as they strive to improve education at the elementary, secondary, and collegiate levels.
In contemporary society, science constitutes a significant part of human life in that it impacts on how people experience and understand the world and themselves. The rapid advances in science and technology, newly established societal and cultural norms and values, and changes in the climate and environment, as well as, the depletion of natural resources all greatly impact the lives of children and youths, and hence their ways of learning, viewing the world, experiencing phenomena around them and interacting with others. These changes challenge science educators to rethink the epistemology and pedagogy in science classrooms today as the practice of science education needs to be proactive and relevant to students and prepare them for life in the present and in the future. Featuring contributions from highly experienced and celebrated science educators, as well as research perspectives from Europe, the USA, Asia and Australia, this book addresses theoretical and practical examples in science education that, on the one hand, plays a key role in our understanding of the world, and yet, paradoxically, now acknowledges a growing number of uncertainties of knowledge about the world. The material is in four sections that cover the learning and teaching of science from science literacy to multiple representations; science teacher education; the use of innovations and new technologies in science teaching and learning; and science learning in informal settings including outdoor environmental learning activities. Acknowledging the issues and challenges in science education, this book hopes to generate collaborative discussions among scholars, researchers, and educators to develop critical and creative ways of science teaching to improve and enrich the lives of our children and youths.