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This book demonstrates that using visualisation processes in mathematics education can help to enhance teaching and learning and bridge the inequality gap that exists between well-resourced and under-resourced schools in Southern Africa. Drawing on classroom research conducted in the Southern African region, it examines how epistemological access in a context of gross inequality can be constructively addressed by providing research-based solutions and recommendations. The book outlines the visualisation process as an integral but often overlooked process of mathematics teaching and learning. It goes beyond the traditional understanding of visualisation processes such as picture forming and using tools and considers visualisation processes that are semiotic in nature and includes actions such as gestures in combination with language. It adds value to the visualisation in mathematics education research discourse and deliberation in Africa. With a unique focus on Southern Africa and open avenues for further research and collaboration in the region, it will be a highly relevant reading for researchers, academics and post-graduate students of mathematics education, comparative education and social justice education.
"This book demonstrates that using visualisation processes in mathematics education can help to enhance teaching and learning and bridge the inequality gap that exists between well-resourced and under-resourced schools in Southern Africa. Drawing on classroom research conducted in the Southern African region, it examines how epistemological access in a context of gross inequality can be constructively addressed by providing research-based solutions and recommendations. The book outlines the visualisation process as an integral but often overlooked process of mathematics teaching and learning. It goes beyond the traditional understanding of visualisation processes such as picture forming and using tools and considers visualisation processes that are semiotic in nature and includes actions such as gestures in combination with language. It adds value to the visualisation in mathematics education research discourse and deliberation in Africa. With a unique focus on Southern Africa and open avenues for further research and collaboration in the region, it will be a highly relevant reading for researchers, academics and post-graduate students of mathematics education, comparative education and social justice education"--
This book addresses issues related to the recruitment, preparation, and retention of STEM teachers. Focusing on recruitment specifically, it explores the strategies used to introduce biology majors to the teaching profession, increase their interest in teaching, and support their transition into teaching. Taking the Transformative and Innovative Practices in STEM Education (TIPS) program as a case study, it draws upon a wide range of data sources to contextualize the experiences of program participants, including reflections from participants and program staff, pre- and post- surveys, focus groups, and annual interviews. The authors present insights about their decision-making and use the data to help create illustrative examples of the STEM majors of color who choose to pursue teaching and to explore why others decide not to pursue teaching. It foregrounds the importance of recruiting STEM teachers of color for urban districts, the role of culture and identity in the decision-making process, and the role played by professional development and mentoring. With emphasis on recruiting STEM majors at a Predominantly Black Institution (PBI), the book ultimately provides strategies for increasing collaboration across departments, supporting and mentoring students, and addressing cultural and institutional barriers that STEM majors face when transitioning into teacher education. As such, it will appeal to STEM education and teacher education scholars, as well as program directors, deans of Schools of Education, and deans of Schools of Science.
This book considers how post-secondary chemistry education can be advanced in developing countries, in order to respond to emerging global, regional, and local needs. Taking Guyana as a case study, it pays particular attention to local challenges facing such territories, including human and financial resource shortages, tension between quality and quantity of graduates, cultural inequalities, unequal access to increasingly important Information and Communication Technology or Technologies (ICTs), and increasing competition from international universities in the developed world. Written by a team with over 70 years in combined teaching experience, it asks whether these challenges can be met and overcome and considers how tertiary chemistry education can better meet the rapidly changing needs of society. The authors examine the status quo of tertiary chemistry education in Guyana against the introductory backdrop of the internal and external stresses on the education system, before exploring selected best practices grounded in a three-pronged model focused on pedagogy, programming, and people. Advancing diversity on each of these levels, the book ultimately shows how this framework can support better learning and teaching, and the development of a better equipped and more diverse Science, Technology, Engineering and Mathematics (STEM) workforce. It will appeal to scholars, researchers, graduate students, and tertiary level curriculum developers in chemistry education, interested in an innovative, holistic approach for transforming chemistry teaching that focuses on pedagogical diversity, strategic co-curricular programming, and accommodating diversity and diverse learning styles in the classroom.
This book sheds new light on the importance of Black representation in the US science curriculum from a social, cultural, cognitive, and scientific perspective. Weaving together content, new methodologies, and science education pedagogies, it opens up new space for the meaningful inclusion of the science capital and cultural capital of Black people in the US science curricula. Drawing on ethnographic interviews with African American Gullah-Geechee and research outcomes from qualitative and quantitative research and curriculum development, it brings home the importance of attending to a sense of belonging in the K-12 science curricula toward lasting equity and inclusion. The author uses applied cognitive psychology theories as frameworks to show how perceptions about the perceived value of Black representation as a way of knowing is influenced by identity, culture, and social schemas. Incorporating new methodologies and approaches focused on inclusion and belonging, it will appeal to scholars, researchers, upper-level and post-graduate students with interest in STEM education, race and ethnicity in education, equity, and research methods in education.
Through examining the theoretical ideas of disciplinarity and disciplinary practices, the book presents instructional aspects for teachers to explore when engaged with integrated STEM inquiry. Are you interested to understand the difference between science inquiry and STEM inquiry? Do you want to introduce integrated STEM problem solving to your students but need help with the key features of STEM inquiry? This book presents in-depth discussions related to the features and affordances of integrated STEM inquiry. Written for K-12 teachers and teacher educators, this book conceptualises STEM inquiry and integrated STEM and their enactment, using three practical STEM instructional frameworks: problem-centric, solution/design-centric, and user-centric STEM. The three STEM instructional frameworks serve as a key anchor for teachers to interpret and apply when planning various STEM lessons in meaningful, practical, and coherent ways. Whether you are an aspiring K-12 STEM teacher or an in-service teacher teaching K-12 students, the ideas of integrated STEM inquiry presented in this book challenge educators to think about the principles of integrated STEM inquiry and how they can be incorporated into classroom practice and lessons.
Addressing underlying issues in science education and teacher training, which contribute to continued underrepresentation of racial and ethnic minority students in STEM and STEAM subjects and careers, this timely volume illustrates how a critical postmodern science pedagogy (CPSP) can be used effectively to raise awareness of diversity issues amongst preservice teachers. Using a case study design consisting of class observations, interviews, content analysis, questionnaires, and instructional interventions in preservice teacher training, the volume bridges science and multicultural education and investigates how curricular development and teacher preparation can be used to ensure that science education itself promotes diversity within STEM, and throughout education. Chapters also examine the intersections of science education and science literacy for both students and teachers and, in doing so, promote the importance of positive and accurate representation of diversity within science and research discourse. The book attempts to raise awareness regarding the need for meaningful curricular reform that creates real opportunities to address historical and scientific misinformation, while increasing diversity and inclusion in schools and society. This important text will be of interest to postgraduate students, researchers, scholars, and preservice teachers in the fields of science and mathematics education, STEM, multicultural education, teacher education, urban education, and the sociology of education.
First published in 1994. This book and its companion volume, Mathematics, Education and Philosophy: An International Perspective are edited collections. Instead of the sharply focused concerns of the research monograph, the books offer a panorama of complementary and forward-looking perspectives. They illustrate the breadth of theoretical and philosophical perspectives that can fruitfully be brough to bear on the mathematics and education. The empathise of this book is on epistemological issues, encompassing multiple perspectives on the learning of mathematics, as well as broader philosophical reflections on the genesis of knowledge. It explores constructivist and social theories of learning and discusses the rile of the computer in light of these theories.
*THIS BOOK IS AVAILABLE AS OPEN ACCESS BOOK ON SPRINGERLINK* One of the most significant tasks facing mathematics educators is to understand the role of mathematical reasoning and proving in mathematics teaching, so that its presence in instruction can be enhanced. This challenge has been given even greater importance by the assignment to proof of a more prominent place in the mathematics curriculum at all levels. Along with this renewed emphasis, there has been an upsurge in research on the teaching and learning of proof at all grade levels, leading to a re-examination of the role of proof in the curriculum and of its relation to other forms of explanation, illustration and justification. This book, resulting from the 19th ICMI Study, brings together a variety of viewpoints on issues such as: The potential role of reasoning and proof in deepening mathematical understanding in the classroom as it does in mathematical practice. The developmental nature of mathematical reasoning and proof in teaching and learning from the earliest grades. The development of suitable curriculum materials and teacher education programs to support the teaching of proof and proving. The book considers proof and proving as complex but foundational in mathematics. Through the systematic examination of recent research this volume offers new ideas aimed at enhancing the place of proof and proving in our classrooms.
Mathematics Education for Sustainable Economic Growth and Job Creation considers the need for young employees to be capable and confident with transferable knowledge and skills in mathematics and statistics in order to support economic growth in developing countries in an increasingly digital age. This book draws on differing international perspectives in relation to mathematics education for sustainable economic growth and job creation. The contributors include education researchers and those involved in policymaking for both developing countries and beyond. Within each chapter, there is a reflection from the authors on their experiences in educational systems and policy development or research studies, which contribute to sustainable economic growth in different countries. As well as considerations of economies and job creation, the scholarship delves further into developing a critically aware citizenship through mathematics education. Extending current thinking about the role of mathematics education and educating students for future needs, this book will be of great interest for academics, researchers and postgraduate students in the field of mathematics education, STEM education and sustainability education.