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In this second volume of It’s All About Thinking, the authors focus their expertise on the disciplines of mathematics and science, translating principles into practices that help other educators with their students. How can we help students develop the thinking skills they need to become successful learners? How does this relate to deep learning of important concepts in mathematics and science? How can we engage and support diverse learners in inclusive classrooms where they develop understanding and thinking skills? In this book, Faye, Leyton and Carole explore these questions and offer classroom examples to help busy teachers develop communities where all students learn. This book is written by three experienced educators who offer a welcoming and “can-do” approach to the big ideas in math and science education today. In this book you will find: insightful ways to teach diverse learners (Information circles, open-ended strategies, inquiry, manipulatives and models) lessons crafted using curriculum design frameworks (udl and backwards design) assessment for, as, and of learning fully fleshed-out lessons and lesson sequences inductive teaching to help students develop deep learning and thinking skills in Math and Science assessment tools (and student samples) for concepts drawn from learning outcomes in Math and Science curricula excellent examples of theory and practice made accessible real school examples of collaboration — teachers working together to create better learning opportunities for their students.
How can we help students develop the thinking skills they need to be successful learners? How does this relate to deep learning of important concepts? How can we engage and support diverse learners in inclusive classrooms where they develop understanding and thinking skills? In this book, Faye and Leyton explore these questions and offer classroom examples to help busy teachers develop communities where all students learn. This book is written by two experienced educators who offer a welcoming and "can do" approach to the big ideas in education today. In this book, you will find: insightful ways to teach diverse learners, e.g., literature and information circles, open-ended strategies, cooperative learning, inquiry curriculum design frameworks, e.g., universal design for learning (UDL) and backward design assessment for, of, and as learning lessons to help students develop deep learning and thinking skills in English, Social Studies, and Humanities excellent examples of theory and practice made accessible real school examples of collaboration - teachers working together to create better learning opportunities for their students
In this third volume of It's All About Thinking, the authors focus on teaching and learning in the middle years, transforming principles into practices, and exploring such questions as: How can we help students develop the competencies they need to become successful learners? How can we create pathways to deep learning of important concepts? How can we engage and support diverse learners in inclusive classrooms? Nicole, Linda, and Leyton explore these questions and offer classroom examples to help busy teachers develop communities where all students learn, focusing on the big ideas in middle years education today.
Part of the Every Student Can Learn Mathematics series Build a mathematics teaching community that promotes learning for K-12 educators and students. This user-friendly resource is divided into two parts, each covering actionable team strategies in teaching mathematics in a PLC at Work(TM). First you'll discover how to coach highly effective mathematics teams within your professional learning community. Then you'll learn how to utilize collaboration and lesson-design elements within your math curriculum for teacher team reflection, assessment data analysis, and action. Learn to lead math teacher teams and foster effective collaborative teaching strategies: Build a collaborative math learning culture that engages and promotes learning for students and staff members. Optimize coaching and foster equity and belonging, to encourage collaboration on instruction and math assessment. Engage in mathematics lesson study, to help teams learn from one another and reflect on effective strategies in teaching mathematics. Develop norms, SMART goals for teachers, agendas, and a plan for working effectively as a collaborative team in a PLC at Work(TM). Address all parts of your math curriculum, from math instruction to math interventions. Contents: Preface Introduction Part 1: Develop PLC Structures for Effective Teacher Team Engagement, Transparency, and Action Chapter 1: Five Inspirational PLC Leadership Practices Chapter 2: Five Leadership Strategies for Effective Collaboration in Mathematics Part 2: Use Common Assessments and Lesson-Design Elements for Teacher Team Reflection, Data Analysis, and Subsequent Action Chapter 3: How to Create and Nurture a Culture of Change, Growth, Reflection, and Improvement in Your Mathematics Program Chapter 4: How to Lead a Culture of Transparency and Learning with Mathematics Assessments Chapter 5: How to Lead in a Culture of Transparency and Learning with Mathematics Instruction Chapter 6: How to Lead a Culture of Collective Responsibility Epilogue Appendix A References and Resources Books in the Every Student Can Learn Mathematics series: Mathematics Assessment and Intervention in a PLC at Work(TM) Mathematics Instruction and Tasks in a PLC at Work(TM) Mathematics Homework and Grading in a PLC at Work(TM) Mathematics Coaching and Collaboration in a PLC at Work(TM)
This book is open access under a CC BY 4.0 license. The book presents the Proceedings of the 13th International Congress on Mathematical Education (ICME-13) and is based on the presentations given at the 13th International Congress on Mathematical Education (ICME-13). ICME-13 took place from 24th- 31st July 2016 at the University of Hamburg in Hamburg (Germany). The congress was hosted by the Society of Didactics of Mathematics (Gesellschaft für Didaktik der Mathematik - GDM) and took place under the auspices of the International Commission on Mathematical Instruction (ICMI). ICME-13 brought together about 3.500 mathematics educators from 105 countries, additionally 250 teachers from German speaking countries met for specific activities. Directly before the congress activities were offered for 450 Early Career Researchers. The proceedings give a comprehensive overview on the current state-of-the-art of the discussions on mathematics education and display the breadth and deepness of current research on mathematical teaching-and-learning processes. The book introduces the major activities of ICME-13, namely articles from the four plenary lecturers and two plenary panels, articles from the five ICMI awardees, reports from six national presentations, three reports from the thematic afternoon devoted to specific features of ICME-13. Furthermore, the proceedings contain descriptions of the 54 Topic Study Groups, which formed the heart of the congress and reports from 29 Discussion Groups and 31 Workshops. The additional important activities of ICME-13, namely papers from the invited lecturers, will be presented in the second volume of the proceedings.
Online Collaborative Learning: Theory and Practice provides a resource for researchers and practitioners in the area of online collaborative learning (also known as CSCL, computer-supported collaborative learning), particularly those working within a tertiary education environment. It includes articles of relevance to those interested in both theory and practice in this area. It attempts to answer such important current questions as: how can groups with shared goals work collaboratively using the new technologies? What problems can be expected, and what are the benefits? In what ways does online group work differ from face-to-face group work? And what implications are there for both educators and students seeking to work in this area?
Looking for a silver bullet to accelerate EL achievement? There is none. But this, we promise: when EL specialists and general ed teachers pool their expertise, your ELs’ language development and content mastery will improve exponentially. Just ask the tens of thousands of Collaboration and Co-Teaching users and now, a new generation of educators, thanks to this all-new second edition: Collaborating for English Learners. Why this new edition? Because more than a decade of implementation has generated for Andrea Honigsfeld and Maria Dove new insight into what exemplary teacher collaboration looks like, which essential frameworks must be established, and how integrated approaches to ELD services benefit all stakeholders. Essentially a roadmap to the many different ways we can all work together, this second edition of Collaborating for English Learners features: All-new examples, case studies, illustrative video, and policy updates In-depth coverage of the full range of strategies and configurations for determining the best model to adopt Templates, planning guides, and other practical tools to put collaboration into practice Guidelines, self-assessments, and questionnaires for evaluating the strategies’ effectiveness By this time, the big benefits of teacher collaboration are well documented. Where teachers and schools struggle still is determining the best way to do so, especially when working with our ELs. That’s where Andrea Honigsfeld, Maria Dove, and their second edition of Collaborating for English Learners will prove absolutely indispensable. After all, there are no two better authorities.
This title is a greatly expanded volume of the original Art and Science of Teaching, offering a competency-based education framework for substantive change based on Dr. Robert Marzano's 50 years of education research. While the previous model focused on teacher outcomes, the new version places focus on student learning outcomes, with research-based instructional strategies teachers can use to help students grasp the information and skills transferred through their instruction. Throughout the book, Marzano details the elements of three overarching categories of teaching, which define what must happen to optimize student learning: students must receive feedback, get meaningful content instruction, and have their basic psychological needs met. Gain research-based instructional strategies and teaching methods that drive student success: Explore instructional strategies that correspond to each of the 43 elements of The New Art and Science of Teaching, which have been carefully designed to maximize student engagement and achievement. Use ten design questions and a general framework to help determine which classroom strategies you should use to foster student learning. Analyze the behavioral evidence that proves the strategies of an element are helping learners reach their peak academic success. Study the state of the modern standards movement and what changes must be made in K-12 education to ensure high levels of learning for all. Download free reproducible scales specific to the elements in The New Art and Science of Teaching. Contents: Chapter 1: Providing and Communicating Clear Learning Goals Chapter 2: Conducting Assessment Chapter 3: Conducting Direct Instruction Lessons Chapter 4: Practicing and Deepening Lessons Chapter 5: Implementing Knowledge Application Lessons Chapter 6: Using Strategies That Appear in All Types of Lessons Chapter 7: Using Engagement Strategies Chapter 8: Implementing Rules and Procedures Chapter 9: Building Relationships Chapter 10: Communicating High Expectations Chapter 11: Making System Changes
If your STEM lessons are falling on disinterested ears, it's time to mix things up. What you need are more engaging, brain-based science and math strategies to captivate your students' attention, activate their prior knowledge, and invigorate their interest. Blending current research on the student brain with practical methods for teaching science and math, John Almarode and Ann M. Miller identify six essential "ingredients" in a recipe for student success. In their book you'll discover A customizable framework you can use right away Classroom-ready, content-specific attention grabbers Overt and covert strategies to boost behavioral, emotional, and cognitive engagement Techniques for making relevant connections that maximize retention With this new approach to captivating STEM lessons, you'll energize classroom time and keep your students on task and engaged-every day.
Developing a positive attitude towards science and mathematics is essential to developing proficiency in these subjects. Recognizing this, Bringing Science and Mathematics to Life for All Learners provides interesting teaching methods and connects them to recent pedagogical approaches that span the scientific and mathematical curricula. It builds upon the expanding knowledge of what works in classrooms, and suggests how new approaches to teaching and learning can transform science and mathematics instructions.The book is designed to help students in learning science and mathematics. It has many research-based and standards-driven activities, lesson plans, and active learning techniques to reach diverse student groups. Active group engagement and continuity in scientific and mathematical experiences are stressed as motivating factors for students. Presented in a creative manner, the ultimate goal of this book is to deepen the collective conversation, challenge existing ways of thinking, and provide up-to-date tools for educators so that they can help improve the science and mathematics skill levels of others.