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"This book is a wonderful tool and reference for any teacher. In my work of providing professional development to teachers of elementary science, one of the hardest areas for the teachers to grasp is assessment. Especially helpful for these teachers are the chapters on writing short-answer and essay items, performance-based assessment, and portfolios."-Cindy Pulkowski, Program ManagerScience: It's Elementary, Pittsburgh, PAA practical guide for creating standards-based objectives and assessments aligned with Bloom's Taxonomy!This user-friendly resource provides clear, step-by-step guidelines for writing measurable objectives and developing appropriate formative and summative assessments to guide instruction in the elementary classroom. Designed around an easy-to-follow model, this book helps teachers develop unit and daily instructional objectives based on state and national content standards for each level of Bloom's Taxonomy, including synthesis and evaluation. The subsequent chapters cover the main forms of assessment and provide many detailed examples of assessment items drawn from each of the major subject areas. Elementary school teachers will discover how to:Deconstruct the standards and write measurable objectivesCreate true-false, fill-in-the-blank, matching, and multiple choice exercisesWrite short-answer questions and essay itemsUse performance-based assessments and portfolios This resource guides teachers through the process of designing specific objectives based on content standards and helps them develop the right assessments to measure their students' development!
What is understanding and how does it differ from knowledge? How can we determine the big ideas worth understanding? Why is understanding an important teaching goal, and how do we know when students have attained it? How can we create a rigorous and engaging curriculum that focuses on understanding and leads to improved student performance in today's high-stakes, standards-based environment? Authors Grant Wiggins and Jay McTighe answer these and many other questions in this second edition of Understanding by Design. Drawing on feedback from thousands of educators around the world who have used the UbD framework since its introduction in 1998, the authors have greatly revised and expanded their original work to guide educators across the K-16 spectrum in the design of curriculum, assessment, and instruction. With an improved UbD Template at its core, the book explains the rationale of backward design and explores in greater depth the meaning of such key ideas as essential questions and transfer tasks. Readers will learn why the familiar coverage- and activity-based approaches to curriculum design fall short, and how a focus on the six facets of understanding can enrich student learning. With an expanded array of practical strategies, tools, and examples from all subject areas, the book demonstrates how the research-based principles of Understanding by Design apply to district frameworks as well as to individual units of curriculum. Combining provocative ideas, thoughtful analysis, and tested approaches, this new edition of Understanding by Design offers teacher-designers a clear path to the creation of curriculum that ensures better learning and a more stimulating experience for students and teachers alike.
Bolstered by new standards and new initiatives to promote STEM education, engineering is making its way into the school curriculum. This comprehensive introduction will help elementary educators integrate engineering into their classroom, school, or district in age-appropriate, inclusive, and engaging ways. Building on the work of a Museum of Science team that has spent 15 years developing elementary engineering curricula, this book outlines how engineering can be integrated into a broader STEM curriculum, details its pedagogical benefits to students, and includes classroom examples to help educators tailor instruction to engage diverse students. Featuring vignettes, case studies, videos, research results, and assessments, this resource will help readers visualize high-quality elementary engineering and understand the theoretical principles in context. Book Features: Frameworks to help teachers create curricula and structure activities. A focus on engaging the diversity of learners in today’s classrooms. Experiences from the nation’s leading elementary education curriculum that has reached 13.3 million children and 165,000 educators. Go to eie.org/book for videos, assessment tools, reproducibles, and other instructional supports that enliven the text.
"Clearly written and well organized, this book shows how to apply the principles of universal design for learning (UDL) across all subject areas and grade levels. The editors and contributors describe practical ways to develop classroom goals, assessments, materials, and methods that use UDL to meet the needs of all learners. Specific teaching ideas are presented for reading, writing, science, mathematics, history, and the arts, including detailed examples and troubleshooting tips. Particular attention is given to how UDL can inform effective, innovative uses of technology in the inclusive classroom. Subject Areas/Keywords: assessments, classrooms, content areas, curriculum design, digital media, educational technology, elementary, inclusion, instruction, learning disabilities, literacy, schools, secondary, special education, supports, teaching methods, UDL, universal design Audience: General and special educators in grades K-8, literacy specialists, school psychologists, administrators, teacher educators, and graduate students"--
What do aspiring and practicing elementary science teacher education faculty need to know as they plan and carry out instruction for future elementary science teachers? This scholarly and practical guide for science teacher educators outlines the theory, principles, and strategies needed, and provides classroom examples anchored to those principles. The theoretical and empirical foundations are supported by scholarship in the field, and the practical examples are derived from activities, lessons, and units field-tested in the authors’ elementary science methods courses. Designing and Teaching the Elementary Science Methods Course is grounded in the theoretical framework of pedagogical content knowledge (PCK), which describes how teachers transform subject matter knowledge into viable instruction in their discipline. Chapters on science methods students as learners, the science methods course curriculum, instructional strategies, methods course assessment, and the field experience help readers develop their PCK for teaching prospective elementary science teachers. "Activities that Work" and "Tools for Teaching the Methods Course" provide useful examples for putting this knowledge into action in the elementary science methods course.
The need for a cohesive and comprehensive curriculum that intentionally connects standards, instruction, and assessment has never been more pressing. For educators to meet the challenging learning needs of students they must have a clear road map to follow throughout the school year. Rigorous Curriculum Design presents a carefully sequenced, hands-on model that curriculum designers and educators in every school system can follow to create a progression of units of study that keeps all areas tightly focused and connected.
The fifth edition of this practical guide to interdisciplinary instruction focuses on the thinking and reasoning skills mandated by the Common Core State Standards and the content-learning standards required by an increasing number of states. The author provides an easy-to-follow, step-by-step guide to designing, creating, and implementing unit and lesson plans for all learners. Both pre-service and in-service elementary and middle-school teachers will find Wood’s approach to be comprehensive, with a strong theoretical foundation. Using Wiggins and McTighe’s backward design process, Wood offers specific protocols for creating unit and lesson plans at the elementary and middle-school levels. By emphasizing differential instruction, constructivist educational philosophy, application of skills in meaningful context, and the art of engaging student interest, he demonstrates how diverse student populations can benefit from the interdisciplinary approach. Prospective teachers will learn to create interdisciplinary and multidisciplinary plans that promote problem solving, creativity, and social interaction. Examples abound, with an appendix of sample unit plan designs filled with ideas for lessons and activities.
Students become experts and innovators through Concept-Based teaching Innovators don’t invent without a deep understanding of how the world works. With this foundation, they apply conceptual understanding to solve new problems. We want our students to not only retain ideas, but relate them to other things they encounter, using each new situation to add nuance and sophistication to their thinking. To do this, they need conceptual understanding. This book serves as a road map for Concept-Based teaching. Discover how to help students uncover conceptual relationships and transfer them to new situations. Specifically, teachers will learn: Strategies for introducing conceptual learning to students Four lesson frameworks to help students uncover conceptual relationships How to assess conceptual understanding, and How to differentiate concept-based instruction Look no further. For deep learning and innovative thinking, this book is the place to start. "The authors tear down the false dichotomies of traditional vs innovative education and provide a practical toolkit for developing creativity and applying knowledge through Concept-Based learning. Every practitioner needs this book to juxtapose what worked well in the 20th Century with what is essential in the 21st Century and beyond." Michael McDowell, Superintendent Ross School District, Ross, CA "While most good educators recognise the incredible value of teaching conceptually, it is challenging. The authors have created accessible, practical baby steps for every teacher to use." Dr. Vincent Chan, principal Fairview International School, Kuala Lumpur, Malaysia
Aimed at the growing number of educators who are looking to move beyond covering the curriculum, Designing Authentic Performance Tasks and Projects provides a comprehensive guide to ensuring students' deeper learning—in which they can transfer their knowledge, skills, and understandings to the world beyond the classroom. Readers will learn how to * Create authentic tasks and projects to address both academic standards and 21st century skills. * Apply task frames to design performance tasks that allow voice and choice for students. * Design and use criterion-based evaluation tools and rubrics for assessment, including those for students to use in self-assessment and peer assessment. * Incorporate performance-based instructional strategies needed to prepare students for authentic performance. * Differentiate tasks and projects for all students, including those needing additional support or challenge. * Effectively manage the logistics of a performance-based classroom. * Use project management approaches to facilitate successful implementation of tasks and projects. * Develop performance-based curriculum at the program, school, and district levels. Authors Jay McTighe, Kristina J. Doubet, and Eric M. Carbaugh provide examples and resources across all grade levels and subject areas. Teachers can use this practical guidance to transform their classrooms into vibrant centers of learning, where students are motivated and engaged and see relevance in the work they are doing.
Turn good intentions into better outcomes—by design! Why leave student success up to chance? By combining your intuition and experience with the latest research on high-impact learning practices, you can evolve your teaching from good to great and make a lasting difference for your students. Organized around the DIIE framework, Great Teaching by Design takes you step-by-step from intention to implementation to accelerate the impact your teaching has on student learning. Inside, you’ll find • A deep dive into the four stages of the DIIE model: Diagnosis and Discovery, Intervention, Implementation, and Evaluation • A fresh look at the Visible Learning research, which identifies the most powerful strategies for teaching and learning • Stories of best practices in action and examples from classrooms around the world Great teaching may come by chance, but it will come by design. Whether you’re new to teaching or looking to give your instruction a boost, take up the challenge and discover a new framework for teaching with true intentionality.