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This book reviews the Teacher Education and Development Study: Learning to Teach Mathematics, which tested 23,000 primary and secondary level math teachers from 16 countries on content knowledge and asked their opinions on beliefs and opportunities to learn.
What is distinctive about the ways specific disciplines are traditionally taught, and what kinds of learning do they promote? Do they inspire the habits of the discipline itself, or do they inadvertently contradict or ignore those disciplines? By analyzing assumptions about often unexamined teaching practices, their history, and relevance in contemporary learning contexts, this book offers teachers a fresh way to both think about their impact on students and explore more effective ways to engage students in authentic habits and practices. This companion volume to Exploring Signature Pedagogies covers disciplines not addressed in the earlier volume and further expands the scope of inquiry by interrogating the teaching methods in interdisciplinary fields and a number of professions, critically returning to Lee S. Shulman’s origins of the concept of signature pedagogies. This volume also differs from the first by including authors from across the United States, as well as Ireland and Australia.The first section examines the signature pedagogies in the humanities and fine arts fields of philosophy, foreign language instruction, communication, art and design, and arts entrepreneurship. The second section describes signature pedagogies in the social and natural sciences: political science, economics, and chemistry. Section three highlights the interdisciplinary fields of Ignatian pedagogy, women’s studies, and disability studies; and the book concludes with four chapters on professional pedagogies – nursing, occupational therapy, social work, and teacher education – that illustrate how these pedagogies change as the social context changes, as their knowledge base expands, or as online delivery of instruction increases.
This work reports the findings of the Professional Competence of Teachers, Cognitively Activating Instruction, and Development of Students ́ Mathematical Literacy project (COACTIV). COACTIV applies a broad, innovative conceptualization of teacher competence to examine how mathematics teachers’ knowledge, beliefs, motivational orientations, and self-regulation skills influence their instructional practice and teaching outcomes In this project data was collected on various aspects of teacher competence and classroom instruction from the perspective of both the teachers themselves and their students. Moreover, it gauges the effects of these teacher characteristics on student learning, as indexed by the progress students in each class. Questions addressed in the study which are reported in this volume include: What are the characteristics of successful teaching? What distinguishes teachers who succeed in their profession? How can the quality of instruction be improved?
How do expert teachers do it? How do they enhance student learning? How do they manage the dilemmas and tensions inherent in working with 25 different students in every lesson? Internationally respected teacher educator John Loughran argues that teachers’ knowledge of what they do is largely tacit and often misunderstood. In this book, he distils the essence of professional practice for classroom teachers. Drawing on the best research on pedagogy, he outlines the crucial principles of teaching and learning, and shows how they are translated into practice using real classroom examples. He emphasises that teaching procedures need to be part of an integrated approach, so that they are genuinely meaningful and result in learning. Throughout, he shows how teachers can engage their students in ways that create a real ‘need to know’, and a desire to become active learners. What Expert Teachers Do is for teachers who want to become really accomplished practitioners.
When teachers adopt standards-based learning, students take ownership of their education and achievement soars. Written specifically for K-12 teachers, this resource details a sequential approach for connecting curriculum, instruction, assessment methods, and feedback through standards-based education. The authors provide practical advice, real-world examples, and answers to frequently asked questions designed to support you through this important transition.
In this groundbreaking work, the authors and their contributors offer a deep, probing look at the multilayered professional lives of teachers, where moral, historical, personal, epistemological worlds merge. Using the language of metaphor, the authors explore the realm of teachers' knowledge, and how it applies to their lives. Each part of the book focuses on a different aspect or "landscape." Personal stories contributed by real teachers, both beginning and experienced, are interwoven with stories of teacher development, growth, and even failure. This book is essential reading for all teachers, teacher educators, principals, superintendents, staff developers, and those who work in teacher research, professional development, and the philosophy of education.
A bold, brain-based teaching approach to culturally responsive instruction To close the achievement gap, diverse classrooms need a proven framework for optimizing student engagement. Culturally responsive instruction has shown promise, but many teachers have struggled with its implementation—until now. In this book, Zaretta Hammond draws on cutting-edge neuroscience research to offer an innovative approach for designing and implementing brain-compatible culturally responsive instruction. The book includes: Information on how one’s culture programs the brain to process data and affects learning relationships Ten “key moves” to build students’ learner operating systems and prepare them to become independent learners Prompts for action and valuable self-reflection
2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them.
The quality of primary and secondary school mathematics teaching is generally agreed to depend crucially on the subject-related knowledge of the teacher. However, there is increasing recognition that effective teaching calls for distinctive forms of subject-related knowledge and thinking. Thus, established ways of conceptualizing, developing and assessing mathematical knowledge for teaching may be less than adequate. These are important issues for policy and practice because of longstanding difficulties in recruiting teachers who are confident and conventionally well-qualified in mathematics, and because of rising concern that teaching of the subject has not adapted sufficiently. The issues to be examined in Mathematical Knowledge in Teaching are of considerable significance in addressing global aspirations to raise standards of teaching and learning in mathematics by developing more effective approaches to characterizing, assessing and developing mathematical knowledge for teaching.
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.