This book is about how teachers can use classroom mathematics tasks to support student learning, and presents data on the ways in which teachers used those tasks in a particular research project. It is the product of research findings focusing on teacher practice, teacher learning and knowledge, and student learning. It demonstrates how teachers can use mathematics tasks to promote effective student learning.
In today’s climate of accountability and standards, increasing attention is focused on teacher "quality," with less emphasis on what teachers actually do to interest and engage students in learning. This path-breaking volume addresses this research problem with a clear definition and a content-specific analysis of the most essential teaching moment—the instructional explanation—for vital new perspectives on educational method and process. Rich in examples from science, mathematics, and the humanities, Instructional Explanations in the Disciplines explores a variety of interactive contexts for teaching and learning, which may be collaborative between teachers, students, and others, performed in non-classroom settings, or assisted by technology. The book’s subject-matter-specific framework reveals key elements in the process, such as carefully examining the question to be answered, making connections with what is already known, and developing examples conducive to further understanding. Instructional Explanations in the Disciplines is a valuable addition to the education library, giving researchers new methods of unpacking educational process as few books before it.
The authors draw upon scientific studies, theories, site visits, nd their own extensive experiences to describe approaches to social and emotional learning for all levels.
As secondary math teachers, we're often frustrated by the lack of true number sense in our students. Solid research at the elementary level shows how to help all students become mathematically proficient by redefining what it means to compute with number sense. Pam Harris has spent the past ten years scrutinizing the research and using the resulting reform materials with teachers and students, seeing what works and what doesn't work, always with an eye to success in higher math. This book brings these insights to the secondary world, with an emphasis on one powerful goal: building numeracy.--Page [4] of cover
The Handbook of Mathematics Teacher Education, the first of its kind, addresses the learning of mathematics teachers at all levels of schooling to teach mathematics, and the provision of activity and programmes in which this learning can take place. It consists of four volumes. Volume 3, Participants in Mathematics Teacher Education: Individuals, Teams, Communities and Networks, addresses the "who" question of mathematics teacher education. The authors focus on the various kinds of participants in mathematics teacher education, professional development and reform initiatives. The volume consists of six sections. The first two sections are on individual mathematics teachers and teams of mathematics teachers as learners, both containing a separate chapter dedicated to prospective and practising teachers. The third section puts an emphasis on communities and networks of mathematics teachers as learners. One chapter focuses on face-to-face learning communities of prospective mathematics teachers, whereas another chapter does the same for practising mathematics teachers. Two further chapters in this section deal with virtual communities and networks of prospective and practising mathematics teachers, respectively. The fourth section shows a shift of focus to the development of schools, regions and nations as a means of improving mathematics teaching and learning. The fifth section puts an emphasis on the use of action research in mathematics teacher education, on the collaboration between teachers and didacticians, and on the mathematics teaching profession in general. Lastly, the sixth section presents a "critical response" to the whole volume from two specific perspectives: One chapter sifts out interesting issues and indicates the complexity and diversity of the field and the variety of contributions, approaches, theoretical and practical stances in this volume, and the last chapter offers a theoretical perspective on fundamental problems in the context of investigating the communication issues raised. These two chapters form a reflective closure of the whole volume. Bibliographical Information for the complete set: VOLUME 1: Knowledge and Beliefs in Mathematics Teaching and Teaching Development Peter Sullivan, Monash University, Clayton, Australia and Terry Wood, Purdue University, West Lafayette, USA (eds. ) paperback: 978-90-8790-541-5, hardback: 978-90-8790-542-2, ebook: 978-90-8790-543-9 VOLUME 2: Tools and Processes in Mathematics Teacher Education Dina Tirosh, Tel Aviv University, Israel and Terry Wood, Purdue University, West Lafayette, USA (eds. ) paperback: 978-90-8790-544-6, hardback: 978-90-8790-545-3, ebook: 978-90-8790-546-0 VOLUME 3: Participants in Mathematics Teacher Education: Individuals, Teams, Communities and Networks Konrad Krainer, University of Klagenfurt, Austria and Terry Wood, Purdue University, West Lafayette, USA (eds. ) paperback: 978-90-8790-547-7, hardback: 978-90-8790-548-4, ebook: 978-90-8790-549-1 VOLUME 4: The Mathematics Teacher Educator as a Developing Professional Barbara Jaworski, Loughborough University, UK and Terry Wood, Purdue University, West Lafayette, USA (eds. ) paperback: 978-90-8790-550-7, hardback: 978-90-8790-551-4, ebook: 978-90-8790-552-1
"This book provides a framework for evaluating and conducting educational technology research, sharing research on educational technology in education content areas, and proposing structures to guide, link, and build new structures with future research"--Provided by publisher.
Results from national and international assessments indicate that school children in the United States are not learning mathematics well enough. Many students cannot correctly apply computational algorithms to solve problems. Their understanding and use of decimals and fractions are especially weak. Indeed, helping all children succeed in mathematics is an imperative national goal. However, for our youth to succeed, we need to change how we're teaching this discipline. Helping Children Learn Mathematics provides comprehensive and reliable information that will guide efforts to improve school mathematics from pre-kindergarten through eighth grade. The authors explain the five strands of mathematical proficiency and discuss the major changes that need to be made in mathematics instruction, instructional materials, assessments, teacher education, and the broader educational system and answers some of the frequently asked questions when it comes to mathematics instruction. The book concludes by providing recommended actions for parents and caregivers, teachers, administrators, and policy makers, stressing the importance that everyone work together to ensure a mathematically literate society.
This book reflects on the continuing development of teacher noticing through an exploration of the latest research. The authors and editors seek to clarify the construct of teacher noticing and its related branches and respond to challenges brought forth in earlier research. The authors also investigate teacher noticing in multiple contexts and frameworks, including mathematics, science, international venues, and various age groups.
"In this volume useful information for the teacher is presented concerning the importance of language and the communication of ideas, how to enhance classroom dynamics, and the use of alternate assessment and evaluation approaches in the early childhood grades."--Back cover.
This engaging open access book discusses how a values and valuing perspective can facilitate a more effective mathematics pedagogical experience, and allows readers to explore multiple applications of the values perspective across different education systems. It also clearly shows that teaching mathematics involves not only reasoning and feelings, but also students’ interactions with their cultural setting and each other. The book brings together the work of world leaders and new thinkers in mathematics educational research to improve the learning and teaching of mathematics. Addressing themes such as discovering hidden cultural values, a multicultural society and methodological issues in the investigation of values in mathematics, it stimulates readers to consider these topics in cross-cultural ways, and offers suggestions for research and classroom practice. It is a valuable resource for scholars of mathematics education, from early childhood through to higher education and an inspiring read for all mathematics teachers.
