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Globally, mathematics and science education faces three crucial challenges: an increasing need for mathematics and science graduates; a declining enrolment of school graduates into university studies in these disciplines; and the varying quality of school teaching in these areas. Alongside these challenges, internationally more and more non-specialists are teaching mathematics and science at both primary and secondary levels, and research evidence has revealed how gaps and limitations in teachers’ content understandings can lead to classroom practices that present barriers to students’ learning. This book addresses these issues by investigating how teachers’ content knowledge interacts with their pedagogies across diverse contexts and perspectives. This knowledge-practice nexus is examined across mathematics and science teaching, traversing schooling phases and countries, with an emphasis on contexts of disadvantage. These features push the boundaries of research into teachers’ content knowledge. The book’s combination of mathematics and science enriches each discipline for the reader, and contributes to our understandings of student attainment by examining the nature of specialised content knowledge needed for competent teaching within and across the two domains. Exploring Mathematics and Science Teachers’ Knowledge will be key reading for researchers, doctoral students and postgraduates with a focus on Mathematics, Science and teacher knowledge research.
The emphasis on subject knowledge in primary curricula is a world-wide phenomenon and has become increasingly the focus of attention in England, with the introduction of the National Curriculum and the appointment of subject co-ordinators in schools. Yet what exactly constitutes a subject and its practice remains controversial. The book is organised into five parts. Part one examines the general aims of primary education, in order to give a background for a more detailed exploration of UK curriculum development. Parts two, three and four examine the core subjects of English, science and mathematics, whilst constantly bearing in mind the full range of views about the purpose of education and the nature of knowledge. Part five introduces key debates about approaches to knowledge, and raises issues about the future organisation of the curriculum. Subject Learning in the Primary Curriculum is the OU reader for Module 832, Teaching and Learning in the Primary Core Curriculum in the MA in Education.
The diversity of research domains and theories in the field of mathematics education has been a permanent subject of discussions from the origins of the discipline up to the present. On the one hand the diversity is regarded as a resource for rich scientific development on the other hand it gives rise to the often repeated criticism of the discipline’s lack of focus and identity. As one way of focusing on core issues of the discipline the book seeks to open up a discussion about fundamental ideas in the field of mathematics education that permeate different research domains and perspectives. The book addresses transformation as one fundamental idea in mathematics education and examines it from different perspectives. Transformations are related to knowledge, related to signs and representations of mathematics, related to concepts and ideas, and related to instruments for the learning of mathematics. The book seeks to answer the following questions: What do we know about transformations in the different domains? What kinds of transformations are crucial? How is transformation in each case conceptualized?
This report aims to 'crack the code' by deciphering the factors that hinder and facilitate girls' and women's participation, achievement and continuation in science, technology, engineering and mathematics (STEM) education and, in particular, what the education sector can do to promote girls' and women's interest in and engagement with STEM education and ultimately STEM careers.
A recently completed landmark study of mathematics and science education in more than 40 countries gathered information that can help address questions as to why students in one country do better in math and science than students in another. This report focuses on the results of the primary school science test of students in 26 countries, from the Third International Mathematics and Science Study (TIMMS). Details of how the study was conducted, the nature of the science test, country characteristics, differences in student achievement, student achievement by science content area, and an analysis of example problems are included. Ideas of intended and implemented curricula are discussed and a number of questions related to these ideas that TIMMS may answer are listed. (DDR)
‘Lively and thought provoking...at a key time in the development of primary mathematics teaching and learning. It offers a very much richer model of mathematics learning than is available to many young learners and has the potential to have a real impact on the way mathematics is taught.’ - Jan Winter, Bristol University, UK What is good mathematics teaching? What is mathematics teaching good for? Who is mathematics teaching for? Under-pinned by findings from the largest research programme into primary mathematics funded in recent years, Transforming Primary Mathematics offers a clear, practical approach to implementing fundamental change in curriculum, classroom environment and teaching styles. It offers an inspiring, sometimes controversial, and often unconventional look at the subject of mathematics, by: Endorsing the use of a ‘new mathematics’ – one based on problem solving, modelling and inquiry, not on abstract rules, memorising, and regurgitation Arguing that there is more to maths teaching than ‘death by a thousand worksheets’ Challenging norms, such as the practice of sorting children into sets based on their perceived mathematical ability Advocating an environment where teachers are encouraged to take risks Looking at how best to prepare learners for an unknown future Encouraging reflection on teachers’ own beliefs and values about mathematics. Transforming Primary Mathematics is for all primary school teachers who want to make mathematics welcoming, engaging, inclusive and successful.
John W. Meyer's work broke new grounds in institutional thought in sociology and made him a central thinker for the emerging interdisciplinary field of neoinstitutionalism, while at the same time establishing institutional thought's comparative variant, world society theory. His scholarship plays a prominent role in contemporary social theory, and has shaped research areas such as international relations and globalization, organization theory, and management studies. One of the results of Meyer's wide-ranging and interdisciplinary influence is that his work has appeared in a diverse range of outlets. This book brings together some of John W. Meyer's widely-scattered work, reviewing four decades of scholarship, and adding several original pieces from Meyer's current work. It gathers substantive commentary on social processes, from stratification to globalization to socialization, as well as on key social institutions, from science to religion to law to education. In its expansive review, this book is both about neoinstitutional thought in general and world society theory in particular. This book is both by John W. Meyer and about John W. Meyer: to the compilation of Meyer's canonized and current work, Georg Krücken and Gili S. Drori add an essay on the theoretical and empirical contribution of Meyer's institutional theory, placing it within the broader context of contemporary social theory, globalization research, and organizational studies in both in the United States and Europe.
This essential text unpacks major transformations in the study of learning and human development and provides evidence for how science can inform innovation in the design of settings, policies, practice, and research to enhance the life path, opportunity and prosperity of every child. The ideas presented provide researchers and educators with a rationale for focusing on the specific pathways and developmental patterns that may lead a specific child, with a specific family, school, and community, to prosper in school and in life. Expanding key published articles and expert commentary, the book explores a profound evolution in thinking that integrates findings from psychology with biology through sociology, education, law, and history with an emphasis on institutionalized inequities and disparate outcomes and how to address them. It points toward possible solutions through an understanding of and addressing the dynamic relations between a child and the contexts within which he or she lives, offering all researchers of human development and education a new way to understand and promote healthy development and learning for diverse, specific youth regardless of race, socioeconomic status, or history of adversity, challenge, or trauma. The book brings together scholars and practitioners from the biological/medical sciences, the social and behavioral sciences, educational science, and fields of law and social and educational policy. It provides an invaluable and unique resource for understanding the bases and status of the new science, and presents a roadmap for progress that will frame progress for at least the next decade and perhaps beyond.