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This book takes a fresh approach to using educational tools to solve profound problems in societies. The authors bring perspectives from curriculum studies, mathematics education, environmental education, and Indigenous epistemologies to a new consideration of “geometries to think with”. These tools reveal the wealth of resources and interrelationships in our world that have the potential to reconfigure and revitalize education. The transdisciplinary nature of the chapters and authors emphasizes the need for thinking beyond boundaries, while respecting the wisdom inherent in intellectual disciplines and traditions.
This unique collection of essays from emerging and established curriculum theory scholars documents individuals’ personal encounters and lingering interactions with Ted T. Aoki and his scholarship. The work illuminates the impact of Aoki’s lifework both theoretically and experientially. Featuring many of the field’s top scholars, the text reveals Aoki’s historical legacy and the contemporary significance of his work for educational research and practice. The influence of Aoki’s ideas, pedagogy, and philosophy on lived curriculum is vibrantly examined. Themes include tensionality, multiplicity, and bridging of difference. Ultimately, the text celebrates an Aokian "way of being" whilst engaging a diversity of perspectives, knowledges, and philosophies in education to reflect on the contribution of his work and its continual enrichment of curriculum scholarship today. This text will benefit researchers, academics, and educators with an interest in curriculum studies, educational research, teacher education, and the philosophy of education more broadly. Those specifically interested in international and comparative education, as well as interdisciplinary approaches – which include perspectives in arts, language and literacy, sciences, technology, and higher education curriculum – will also benefit from this book.
A critical and timely collection, Land as Relation introduces readers to an intersectional approach to Indigenous space and land-based education. Indigenous and ally-partnered contributors, from elders to emerging and established scholars, share teachings and scholarship grounded in Indigenous knowledge and philosophy. These diverse perspectives on Indigenous pedagogies are intersected with content surrounding Indigenous languages, sciences, mathematics, arts, health, and governance. Divided into three parts, this text defines the interrelatedness of global Indigenous land protectors and educators, and the significant impact of Indigenous knowledges, language, and ceremonies on the collective social, spiritual, and physical wellness of all living beings. Land as Relation demonstrates that Indigenous resistance and renaissance is essential for learners everywhere to understand how a collective notion of land education contributes to walking in harmony and balance, not only for themselves, but for their families, the larger communities that they are a part of, and the world. This collection is an accessible and engaging core resource for undergraduate and graduate students of education, Indigenous studies, geography, and environmental studies. FEATURES - Grounded in Indigenous knowledge systems and provides practical examples of how land-based pedagogies can be applied in different communities and contexts - Features contributions from noted and upcoming Indigenous and ally-partnered scholars who have been gifted access to elders and deep cultural and linguistic knowledges of Indigenous nations - Includes learning aids such as end-of-chapter discussion questions, maps, photographs, and other visual tools
Foundations of Embodied Learning advances learning, instruction, and the design of educational technologies by rethinking the learner as an integrated system of mind, body, and environment. Body-based processes—direct physical, social, and environmental interactions—are constantly mediating intellectual performance, sensory stimulation, communication abilities, and other conditions of learning. This book’s coherent, evidence-based framework articulates principles of grounded and embodied learning for design and its implications for curriculum, classroom instruction, and student formative and summative assessment for scholars and graduate students of educational psychology, instructional design and technology, cognitive science, the learning sciences, and beyond.
In 1972, Italo Calvino published Invisible Cities, a literary book that masterfully combines philosophy and poetry, rigid structure and free play, theoretical insight and glittering prose. The text is an extended meditation on urban life, and it continues to resonate not only among literary scholars, but among social scientists, architects, and urban planners as well. To commemorate the 50th anniversary of Invisible Cities, this collection of essays serves as both an appreciation and a critical engagement. Drawing from a wide array of disciplinary perspectives and geographical contexts, this volume grapples with the theoretical, pedagogical, and political legacies of Calvino’s work. Each chapter approaches Invisible Cities not only as a novel but as a work of evocative ethnography, place-writing, and urban theory. Fifty years on, what can Calvino’s dreamlike text offer to scholars and practitioners interested in actually existing urban life?
The international New Math developments between about 1950 through 1980, are regarded by many mathematics educators and education historians as the most historically important development in curricula of the twentieth century. It attracted the attention of local and international politicians, of teachers, and of parents, and influenced the teaching and learning of mathematics at all levels—kindergarten to college graduate—in many nations. After garnering much initial support it began to attract criticism. But, as Bill Jacob and the late Jerry Becker show in Chapter 17, some of the effects became entrenched. This volume, edited by Professor Dirk De Bock, of Belgium, provides an outstanding overview of the New Math/modern mathematics movement. Chapter authors provide exceptionally high-quality analyses of the rise of the movement, and of subsequent developments, within a range of nations. The first few chapters show how the initial leadership came from mathematicians in European nations and in the United States of America. The background leaders in Europe were Caleb Gattegno and members of a mysterious group of mainly French pure mathematicians, who since the 1930s had published under the name of (a fictitious) “Nicolas Bourbaki.” In the United States, there emerged, during the 1950s various attempts to improve U.S. mathematics curricula and teaching, especially in secondary schools and colleges. This side of the story climaxed in 1957 when the Soviet Union succeeded in launching “Sputnik,” the first satellite. Undoubtedly, this is a landmark publication in education. The foreword was written by Professor Bob Moon, one of a few other scholars to have written on the New Math from an international perspective. The final “epilogue” chapter, by Professor Geert Vanpaemel, a historian, draws together the overall thrust of the volume, and makes links with the general history of curriculum development, especially in science education, including recent globalization trends.
*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.
These Proceedings represent the work of contributors to the 14th European Conference on e-Learning, ECEL 2015, hosted this year by the University of Hertfordshire, Hatfield, UK on 29-30 October 2015. The Conference and Programme Co-Chairs are Pro-fessor Amanda Jefferies and Dr Marija Cubric, both from the University of Hertfordshire. The conference will be opened with a keynote address by Professor Patrick McAndrew, Director, Institute of Educational Tech-nology, Open University, UK with a talk on "Innovating for learning: designing for the future of education." On the second day the keynote will be delivered by Professor John Traxler, University of Wolverhampton, UK on the subject of "Mobile Learning - No Longer Just e-Learning with Mobiles." ECEL provides a valuable platform for individuals to present their research findings, display their work in progress and discuss conceptual advances in many different branches of e-Learning. At the same time, it provides an important opportunity for members of the EL community to come together with peers, share knowledge and exchange ideas. With an initial submission of 169 abstracts, after the double blind, peer review process there are 86 academic papers,16 Phd Papers, 5 Work in Progress papers and 1 non academic papers in these Conference Proceedings. These papers reflect the truly global nature of research in the area with contributions from Algeria, Australia, Austria, Belgium, Botswana, Canada, Chile, Cov-entry, Czech Republic, Denmark, Egypt, England, Estonia, France, Germany, Ireland, Japan, Kazakhstan, New Zealand, Nigeria, Norway, Oman, Portugal, Republic of Kazakhstan, Romania, Saudi Arabia, Scotland, Singapore, South Africa, Sweden, the Czech Republic, Turkey, Uganda, UK, United Arab Emirates, UK and USA, Zimbabwe. A selection of papers - those agreed by a panel of reviewers and the editor will be published in a special conference edition of the EJEL (Electronic Journal of e-Learning www.ejel.org ).
The book aims at showing the state-of-the-art in the field of modeling and applications in mathematics education. This is the first volume to do this. The book deals with the question of how key competencies of applications and modeling at the heart of mathematical literacy may be developed; with the roles that applications and modeling may play in mathematics teaching, making mathematics more relevant for students.
Cognitive mathematics provides insights into how mathematics works inside the brain and how it is interconnected with other faculties through so-called blending and other associative processes. This handbook is the first large collection of various aspects of cognitive mathematics to be amassed into a single title, covering decades of connection between mathematics and other figurative processes as they manifest themselves in language, art, and even algorithms. It will be of use to anyone working in math cognition and education, with each section of the handbook edited by an international leader in that field.