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Teaching our children to think and reason mathematically is a challenge, not because students can't learn to think mathematically, but because we must change our own often deeply-rooted teaching habits. This is where instructional routines come in. Their predictable design and repeatable nature support both teachers and students to develop new habits. In Teaching for Thinking, Grace Kelemanik and Amy Lucenta pick up where their first book, Routines for Reasoning, left off. They draw on their years of experience in the classroom and as instructional coaches to examine how educators can make use of routines to make three fundamental shifts in teaching practice: Focus on thinking: Shift attention away from students' answers and toward their thinking and reasoning Step out of the middle: Shift the balance from teacher-student interactions toward student-student interactions Support productive struggle: Help students do the hard thinking work that leads to real learning With three complete new routines, support for designing your own routine, and ideas for using routines in your professional learning as well as in your classroom teaching, Teaching for Thinking will help you build new teaching habits that will support all your students to become and see themselves as capable mathematicians.
Ahighly successful guide to encourage classroomdiscussion fordeveloping children's thinking, learning and literacy skills containsmaterial on the latest trends in teaching thinking, including dialogic teaching, creativity and personalized learning. This sourcebook of ideas is essential reading for anyone seeking to develop children's minds, to build their self-esteem or to improve the quality of teaching and learning in schools.
Originally published in 1990, this title attempts to provide for the educational practitioner an overview of a field that responded in the 1980s to a major educational agenda. This innovative ‘agenda’ called for teaching students in ways that dramatically improved the quality of their thinking. Its context is a variety of changes in education that brought the explicit teaching of thinking to the consciousness of more and more teachers and administrators.
In Teaching Critical Thinking, renowned cultural critic and progressive educator bell hooks addresses some of the most compelling issues facing teachers in and out of the classroom today. In a series of short, accessible, and enlightening essays, hooks explores the confounding and sometimes controversial topics that teachers and students have urged her to address since the publication of the previous best-selling volumes in her Teaching series, Teaching to Transgress and Teaching Community. The issues are varied and broad, from whether meaningful teaching can take place in a large classroom setting to confronting issues of self-esteem. One professor, for example, asked how black female professors can maintain positive authority in a classroom without being seen through the lens of negative racist, sexist stereotypes. One teacher asked how to handle tears in the classroom, while another wanted to know how to use humor as a tool for learning. Addressing questions of race, gender, and class in this work, hooks discusses the complex balance that allows us to teach, value, and learn from works written by racist and sexist authors. Highlighting the importance of reading, she insists on the primacy of free speech, a democratic education of literacy. Throughout these essays, she celebrates the transformative power of critical thinking. This is provocative, powerful, and joyful intellectual work. It is a must read for anyone who is at all interested in education today.
Computational thinking is a lifelong skill important for succeeding in careers and life. Students especially need to acquire this skill while in school as it can assist with solving a number of complex problems that arise later in life. Therefore, the importance of teaching computational thinking and coding in early education is paramount for fostering problem-solving and creativity. Teaching Computational Thinking and Coding to Young Children discusses the importance of teaching computational thinking and coding in early education. The book focuses on interdisciplinary connections between computational thinking and other areas of study, assessment methods for computational thinking, and different contexts in which computational thinking plays out. Covering topics such as programming, computational thinking assessment, computational expression, and coding, this book is essential for elementary and middle school teachers, early childhood educators, administrators, instructional designers, curricula developers, educational software developers, researchers, educators, academicians, and students in computer science, education, computational thinking, and early childhood education.
Make formative assessment work for you—and your math students! Finally, formative assessment that adds up! Bringing Math Students Into the Formative Assessment Equation is the ultimate resource for helping teachers implement formative assessment in the middle school mathematics classroom. And it’s much more than that. With this research-based, teacher-tested guide, you won’t just learn effective teaching strategies—you’ll turn your students into self-regulated learners. They’ll monitor and assess their own progress—and communicate to you about it! Features include: A clear and manageable six-aspect instructional model Detailed strategies for helping students own their successes Real-life examples from middle school mathematics teachers Useful resources and a companion website to help you implement formative assessment in your classroom Formative assessment isn’t just for teachers anymore. With the help of this essential resource, you’ll work together with your students toward a common goal of math success. "This book is outstanding. I would recommend it to any math educator. The depth of research integrated into practice is extensive and, as a result, it is the most practical book I have come across related to formative assessment and mathematics The self-regulation aspects, as well as the ownership and involvement emphasized in the book, went beyond the traditional cognitive strategies endorsed in most books." Marc Simmons, Principal Ilwaco Middle School, Ocean Beach School District, Long Beach, WA "The ideas in this book are brought to life with examples of teachers and students in the classroom. The teacher voices, comments, and quotes lend credibility and are a big component of the book’s strengths as well as the visuals and graphics." Rita Tellez, Math Coordinator Ysleta Independent School District, El Paso, TX
Bringing together theory and research on models of thinking, this work explores thinking skills, strategies, content, and results in depth, providing a framework for their application in the classroom. The authors highlight curriculum development, instructional procedures and assessment, professional roles and responsibilities, and teacher training. They also explore problem solving and critical and creative thinking, and current thinking skills programs. The bibliography includes works from 1980 to the present. Subject and author indexes are included.
A thinking student is an engaged student Teachers often find it difficult to implement lessons that help students go beyond rote memorization and repetitive calculations. In fact, institutional norms and habits that permeate all classrooms can actually be enabling "non-thinking" student behavior. Sparked by observing teachers struggle to implement rich mathematics tasks to engage students in deep thinking, Peter Liljedahl has translated his 15 years of research into this practical guide on how to move toward a thinking classroom. Building Thinking Classrooms in Mathematics, Grades K–12 helps teachers implement 14 optimal practices for thinking that create an ideal setting for deep mathematics learning to occur. This guide Provides the what, why, and how of each practice and answers teachers’ most frequently asked questions Includes firsthand accounts of how these practices foster thinking through teacher and student interviews and student work samples Offers a plethora of macro moves, micro moves, and rich tasks to get started Organizes the 14 practices into four toolkits that can be implemented in order and built on throughout the year When combined, these unique research-based practices create the optimal conditions for learner-centered, student-owned deep mathematical thinking and learning, and have the power to transform mathematics classrooms like never before.