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What exactly do your students need to know by the end of each unit of mathematics study throughout the school year? This practical resource empowers teacher teams to collectively plan for and deliver highly effective units of study in grades 6-8. The authors clearly outline how to generate essential learning standards, create a team unit calendar, identify prior knowledge, and complete many other essential collaborative tasks. Use this resource to provide intermediate grade-level students with a more equitable mathematics learning experience Understand how to collaboratively plan mathematics units in grades 6-8 as a professional learning community (PLC). Study the seven unit-planning elements and learn how to incorporate each in essential unit design. Review the role of the PLC at Work® process in enhancing student learning and teacher collaboration. Observe three model units, one for each grade, for ratios and proportional reasoning. Receive tools and templates for effective unit planning. Contents: Acknowledgments Table of Contents About the Authors Introduction Part One: Mathematics Unit Planning and Design Elements Chapter 1: Planning for Student Learning of Mathematics in Grades 6-8 Chapter 2: Unit Planning as a Collaborative Mathematics Team Part Two: Ratios and Proportional Reasoning Examples, Grades 6-8 Chapter 3: Grade 6 Unit--Ratios and Rates Chapter 4: Grade 7 Unit--Proportional Reasoning Chapter 5: Grade 8 Unit--Linear Functions Epilogue Appendix A: Create a Proficiency Map Appendix B: Team Checklist and Questions for Mathematics Unit Planning References and Resources Index
Blended learning is more than just "teaching with technology"; it allows teachers to maximize learning through deliberate instructional moves. This On-Your-Feet Guide zeroes in on one blended learning routine: Station Rotation. The Station Rotation model moves small groups of students through a series of online and off-line stations, building conceptual understanding and skills along the way. This On-Your-Feet-Guide provides: 7 steps to planning a Station Rotation lesson A full example of one teacher's Station Rotation A blank planning template for designing your own Station Rotation Helpful assessment strategies for monitoring learning at each station Ideas to adapt for low-tech classrooms or large class sizes Use blended learning to maximize learning and keep kids constantly engaged through your next Station Rotation lesson! Laminated, 8.5”x11” tri-fold (6 pages), 3-hole punched
"This book is part of the Every Student Can Learn Mathematics series. In Mathematics Unit Planning in a PLC at Work, Grades PreK-2, authors Sarah Schuhl, Timothy D. Kanold, Jennifer Deinhart, Nathan D. Lang-Raad, Matthew R. Larson, and Nanci N. Smith provide grades preK-2 mathematics teachers with a framework for collectively planning a unit of study. This book helps teams identify what students need to know by the end of each unit and how to build student self-efficacy. The authors advocate using the PLC at Work process for increasing mathematics achievement, and as teams answer the four critical questions of a PLC, they provide students with a more equitable learning experience. The authors share tools and protocols for effectively performing collaborative tasks, such as unwrapping standards, generating unit calendars, determining academic vocabulary and rigorous lessons, utilizing and sharing self-reflections, and designing foundational addition and subtraction units. By reading Mathematics Unit Planning in a PLC at Work, Grades PreK-2, teachers will receive practical insight into collaborative planning and inspiring detailed models of this work in action"--
This text offers guidance to teachers, mathematics coaches, administrators, parents, and policymakers. This book: provides a research-based description of eight essential mathematics teaching practices ; describes the conditions, structures, and policies that must support the teaching practices ; builds on NCTM's Principles and Standards for School Mathematics and supports implementation of the Common Core State Standards for Mathematics to attain much higher levels of mathematics achievement for all students ; identifies obstacles, unproductive and productive beliefs, and key actions that must be understood, acknowledged, and addressed by all stakeholders ; encourages teachers of mathematics to engage students in mathematical thinking, reasoning, and sense making to significantly strengthen teaching and learning.
For many years, the authors have been fellow travelers on the journey to help educators improve their schools. Their first coauthored book focuses on district leadership, principal leadership, and team leadership and addresses how individual teachers can be most effective in leading students—by learning with colleagues how to implement the most promising pedagogy in their classrooms
"This book is part of the Every Student Can Learn Mathematics series. In Mathematics Unit Planning in a PLC at Work®, High School, authors Sarah Schuhl, Timothy D. Kanold, Bill Barnes, Darshan M. Jain, Matthew R. Larson, and Brittany Mozingo provide high school mathematics teachers with a framework for collectively planning a unit of study. This book helps teams identify what students need to know by the end of each unit and how to build student self-efficacy. The authors advocate using the PLC at Work process for increasing mathematics achievement, and as teams answer the four critical questions of a PLC, they provide students with a more equitable learning experience. The authors share tools and protocols for effectively performing collaborative tasks, such as unwrapping standards, generating unit calendars, determining academic vocabulary and rigorous lessons, utilizing and sharing self-reflections, and designing robust units. By reading Mathematics Unit Planning in a PLC at Work, High School, teachers will receive practical insight into collaborative planning and inspiring detailed models of this work in action"--
All students face struggle, and they should—it is how they learn and grow. The teacher’s job is not to remove struggle, but rather to value and harness it, helping students develop good habits of productive struggle. But what’s missing for many educators is an action plan for how to achieve this, especially when it comes to math. This book guides teachers through six specific actions—including valuing, fostering, building, planning, supporting, and reflecting on struggle—to create a game plan for overcoming obstacles by sharing · Actionable steps, activities, and tools for implementation · Instructional tasks representative of each grade level · Real-world examples showcasing classroom photos and student work
Want to know how to implement authentic STEM teaching and learning into your classroom? STEM Lesson Essentials provides all the tools and strategies you'll need to design integrated, interdisciplinary STEM lessons and units that are relevant and exciting to your students. With clear definitions of both STEM and STEM literacy, the authors argue that STEM in itself is not a curriculum, but rather a way of organizing and delivering instruction by weaving the four disciplines together in intentional ways. Rather than adding two new subjects to the curriculum, the engineering and technology practices can instead be blended into existing math and science lessons in ways that engage students and help them master 21st century skills.
Offers a practical guide for improving schools dramatically that will enable all students from all backgrounds to achieve at high levels. Includes assessment forms, an index, and a DVD.
High-performance process improvement takes process improvement to the next ambition level. The kernel of the substance is a generic process improvement process that operates under the strictest time, quality and cost constraints. Thanks to a modular composition and robust methods the scope may range from one single person to networks with hundreds of companies. This is realized via three high-class phases:network and company analysis and synthesis, process analysis and synthesis, the implementation, including process improvement education and training and the practical realization of the improvement potential. The presented methods contain mass customization features and a very advanced logic for optimizing the interaction of people, technology, information and material both in the process improvement process itself and the focus process. The book is based on an extensive R&D effort and thorough practical verifications in more than 75 companies in almost any business and in all sizes.