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In these pages, Kelly Morgan presents a compelling case for implementing a mastery learning science classroom and then shows us how to do it. Using research-based student performance data, Morgan compiles impressive statistics that support her assertion, OC Mastery learning results in improved student learning and motivation.OCO Showing challenges as well as benefits, this text covers a step-by-step implementation from the traditional classroom to a mastery classroom."
Updated Edition of Bestseller Madeline Hunter’s authoritative guide to effective instruction, newly updated and expanded for today’s learners! This classic resource is the best-selling guide to rigorous standards-based instruction that covers teaching to both sides of the brain, teaching for meaning and retention, and teaching to real-life situations. This exciting new edition features: Instruction, learning, motivation, guided practice, and behavior integrated into a comprehensive and effective model for classroom teaching Newly updated and expanded content to encompass teaching for independent learning Teaching tips, classroom examples, recommended readings, a new comprehensive index, and a discussion guide for each chapter
What does ′mastery′ look like in primary science? How can teachers plan for, assess and evidence it? This book explores how ‘rich’ learning tasks that enable children to apply, analyse, evaluate, and/or create to solve exciting and novel problems support the development of mastery level knowledge and skills in primary science. - Outlines how to recognise and use assessment opportunities - Focuses on the development of conceptual understanding - Highlights and demontrates the importance of teacher questioning - Explores the theories behind ′mastery′ for primary science
"Science education is in need of transformation, and the unique treatment detailed in From Wonder to Mastery is the place to start. In this book, Novare Science founder John D. Mays presents a powerful mastery-learning model that has been proven to dramatically improve student learning in science. Drawing on more than two decades in the classroom and a previous career in engineering, John has developed the unique approach to science education based on mastery learning that leads to long-term retention that has been developed and honed through the Novare Science curricula. Designed for teachers, parents, and administrators, From Wonder to Mastery contains all the vital content from Teaching Science So That Students Learn Science, John's original guide to the Novare pedagogical philosophy. This new text also offers a wealth of additional content, as well as an analysis of the research and literature on mastery learning. From Wonder to Mastery begins with a focus on the need to foster a sense of wonder and a kingdom perspective in the classroom, and then goes on to explore how mastery learning can be supported through the 4 essential areas of integration with science: epistemology, mathematics, history, and language. The final 5 chapters describe John's mastery-learning model in detail" --
This book describes the concept of mastery learning in the classroom and the various foundations upon which it is built. Five chapters discuss: (1) "Understanding Mastery Learning" (e.g., the learning/memory base, the measurement base, theoretical bases, and the brain base); (2) "Examining the Standards: Math, Science, Social Studies, and English Language Arts" (e.g., mastery as a beginning, beyond mastery, and standards); (3) "Planning Standards-Based Lessons using Mastery Learning" (e.g., overlap among state and national standards, enrichment and remediation, and planning lessons using six elements of mastery learning); (4) "Implementing Standards and Mastery Learning in the Classroom" (13 steps to implementing mastery learning); and (5) "Professional Development and Mastery Learning" (e.g., a plan for action and a professional development agenda and teaching for mastery). The appendix looks at what the literature can tell (e.g., two approaches to mastery learning, empirical evidence, research examples, and memory by fast and slow learners). (Contains approximately 160 references.) (SM).
Educator John D. Mays lays out a revolutionary new paradigm for science education sorely needed today. Written in an accessible style and firmly grounded upon the biblical teaching of humans as God's image bearers, he explains the principles and strategies schools need to establish a premier science program. It's not about gimmicks or finding new ways to coax students to learn. It is about bringing the truth of humans as image bearers of God into the classroom. It is also about drawing students upward into the adult world of scientific study rather than pandering to juvenile tastes and cultural assumptions about teens and media. This book advocates a rethinking of strategies, methods and priorities that will result in students actually learning and retaining course material.
Ignite science learning with standards-based differentiated instruction that benefits all students. Included are methods for implementation and strategies for successfully managing the differentiated inquiry-based classroom.
Building Intelligent Interactive Tutors discusses educational systems that assess a student's knowledge and are adaptive to a student's learning needs. The impact of computers has not been generally felt in education due to lack of hardware, teacher training, and sophisticated software. and because current instructional software is neither truly responsive to student needs nor flexible enough to emulate teaching. Dr. Woolf taps into 20 years of research on intelligent tutors to bring designers and developers a broad range of issues and methods that produce the best intelligent learning environments possible, whether for classroom or life-long learning. The book describes multidisciplinary approaches to using computers for teaching, reports on research, development, and real-world experiences, and discusses intelligent tutors, web-based learning systems, adaptive learning systems, intelligent agents and intelligent multimedia. It is recommended for professionals, graduate students, and others in computer science and educational technology who are developing online tutoring systems to support e-learning, and who want to build intelligence into the system. Combines both theory and practice to offer most in-depth and up-to-date treatment of intelligent tutoring systems available Presents powerful drivers of virtual teaching systems, including cognitive science, artificial intelligence, and the Internet Features algorithmic material that enables programmers and researchers to design building components and intelligent systems