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Reviews arguments in favor of linking school science and mathematics curriculum to workplace contexts, and provides reviews of twelve mathematics curricula, and eleven for science or an integration of science and math and/or technology education.
At last, a unique book that explores and exploits the links between primary mathematics and science so that you can promote learning in both of these important STEM subjects! Rich in engaging ideas and activities for the classroom this book helps you plan and teach well-structured lessons in a more integrated way. The book outlines key curriculum topics in both subjects and considers why it is important and beneficial to make connections between the two. As well as covering key subject knowledge (what you need to know) and teaching activities (what you need to do), the book explores learners’ mathematical and scientific needs, and defines the characteristics of effective teaching and learning, bringing it all together with ideas which you can use straightway in your classroom. Key features: • promotes an informed approach to integrating primary mathematics and science teaching • helps address the time constraints of delivering the primary national curriculum • presents engaging ideas which can be directly transferred to the classroom • provides a real-life context to mathematics and science activities to inspire student learning • helps you combine two closely related and sometimes tricky subject areas – why teach one subject when you can teach two at the same time! "Accessible, readable and engaging with a range of innovative teaching ideas, this is an invaluable book for all trainee and qualified primary teachers and other educational professionals with links to primary mathematics and science. A great 'go to' book for teachers and trainee teachers alike. Chapters are constructed with easy to read objectives and clear summaries. Many practical ideas, incorporating current research, as well as information on mathematicians and scientists, which is great for boosting children’s aspirations and also helping with teachers’ confidence on the subjects. A lovely, easy to access book, whether it is to use for reference, to dip in and out of or just to use alongside planning materials." Maria McArdle, Senior Lecturer PGCE & Mathematics Lead (Primary), University of Bedfordshire, UK
Featuring an easy-to-follow organization and sample pages from major products, this resource will help all students become technologically literate!"--Jacket.
Based on a three-year study, the authors describe how comprehensive teacher induction systems can both provide teacher support and promote learning more about how to teach. This book calls for re-thinking what teacher induction is about, whom it should serve, what the ‘curriculum’ of induction should be, and the policies, programs, and practices needed to deliver it.
Research in mathematics teacher education as a distinctive field of inquiry has grown substantially over the past 10-15 years. Within this field there is emerging interest in how mathematics teacher educators (MTEs) themselves learn and develop. Until recently there were few published studies on this topic, and the processes by which mathematics teacher educators learn, and the forms of knowledge they require for effective practice, had not been systematically investigated. However, researchers in mathematics education are now beginning to investigate the development of MTE expertise and associated issues. This volume draws on the latest research and thinking in this area is therefore timely to stimulate future development and directions. It will survey the emerging field of inquiry in mathematics education, combining the work of established scholars with perspectives of newcomers to the field, with the aim of influencing development of the field, invite cross-cultural comparisons in becoming a mathematics teacher educator by highlighting issues in the development of MTEs in different countries, and examine the roles of both mathematics educators and mathematicians in preparing future teachers of mathematics. The primary audience will be university-based mathematics teacher educators and MTE researchers, and postgraduate research students who are seeking academic careers as MTEs. Additional interest may come from teacher educators in disciplines other than mathematics, and education policy makers responsible for accreditation and quality control of initial teacher education programs.
This book celebrates the 15th anniversary of the bi-annual symposium series Mathematics and its Connections to the Arts and Sciences (MACAS), which was first held in 2005 following the continued collaboration of an international group of researchers from ICME Topic Study Group 21. The MACAS-conferences bring together scientists and educators who are interested in the connection between mathematics, arts and science in educational curriculum, while emphasizing on, as well as researching about, the role of mathematics. By pooling together these different approaches and viewpoints between mathematics, arts and sciences, this book reveals possible synergies and paths for collaborations. In view of the challenges of the 21st century, a modern approach to education with a focus on multi- and interdisciplinarity is more important than ever. The role of mathematics assumes a key role in this approach as it is connected to all other disciplines, such as STEM education, physics, chemistry, biology, aesthetics and language, and can serve as a bridge between them. This book discusses, amongst others, the curricular approaches to integrate mathematics and other disciplines, the importance of mathematical modelling and the interdisciplinarity ways for learning and studying of mathematics, as well as the intercultural dimensions of mathematics and mathematics in the digital era. All topics will be presented from very different perspectives and regarding very different contexts, including digitization, culture and sustainability. This unique collection will serve as a very valuable and compact source for all above mentioned scientists and educators, as well as for use in advanced teacher education courses.
STEM Integration in K-12 Education examines current efforts to connect the STEM disciplines in K-12 education. This report identifies and characterizes existing approaches to integrated STEM education, both in formal and after- and out-of-school settings. The report reviews the evidence for the impact of integrated approaches on various student outcomes, and it proposes a set of priority research questions to advance the understanding of integrated STEM education. STEM Integration in K-12 Education proposes a framework to provide a common perspective and vocabulary for researchers, practitioners, and others to identify, discuss, and investigate specific integrated STEM initiatives within the K-12 education system of the United States. STEM Integration in K-12 Education makes recommendations for designers of integrated STEM experiences, assessment developers, and researchers to design and document effective integrated STEM education. This report will help to further their work and improve the chances that some forms of integrated STEM education will make a positive difference in student learning and interest and other valued outcomes.
Contains a remedial mathematics program for grades K-5.