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Becoming the Math Teacher You Wish You'd Had: Ideas and Strategies From Vibrant Classrooms by
While mathematicians describe mathematics as playful, beautiful, creative, and captivating, many students describe math class as boring, stressful, useless, and humiliating. In her new book, Tracy Zager helps teachers close this gap by making math class more like mathematics.
Developing Mathematical Literacy Through Adolescent Literature by
Students are offered opportunities to explore multiple mathematical topics such as probabilities, statistics, linear equations, integers, and sequencing, as well as algebra, pre-calculus and calculus concepts through literature. As students develop mathematical literacy, they will also explore literary elements such as characterization, setting, and conflict.
Developing Science Literacy in the 21st Century by
The development of science literacy has the potential to have an enormous impact on real world outcomes. Specifically, developing science literacy may persuade individuals to act. We hope that this book will influence scientists, science journalists, sociologists, anthropologists, communication specialists, political leaders, media outlets, educational institutions, and individual science content consumers. The chapters in this book describe a definition of science literacy that draws on the emotional, cognitive, and social. The authors strive to help prepare individuals to read, write, and speak science in a continuously evolving information landscape. In order to meet these objectives, the chapters examine both qualitative and quantitative research. It is within these frameworks that we can begin to address science literacy in the 21st century.
Early Science Education - Goals and Process-Related Quality Criteria for Science Teaching by
Scientific contributions authored by distinguished experts from the field of early education are published periodically within the framework of the series Scientific Studies on the Work of the "Haus der kleinen Forscher" Foundation. This publication series serves to foster informed dialogue between the Foundation, scientists, and practitioners with the aim of giving all early childhood education and care centres, after-school centres, and primary schools in Germany scientifically sound support in fulfilling their early education mandate. This fifth volume in the series focuses on goals of science education at the level of the children, the early childhood professionals, and the pedagogical staff at after-school centres and primary schools, and on process-related quality criteria for science teaching at pre-primary and primary level. In their expert reports, Yvonne Anders, Ilonca Hardy, Sabina Pauen, Beate Sodian, and Mirjam Steffensky specify pedagogical content dimensions of the goals of early science education at pre-primary and primary school age. In addition to theoretically underpinning these goals, the authors present instruments for their assessment. In his expert report, Jörg Ramseger formulates ten quality criteria for science teaching. Early childhood professionals and pedagogical staff at after-school centres and primary schools can draw on these process-related criteria when planning lessons and conducting self-evaluations of science learning opportunities at pre-primary and primary level. The concluding chapter of the volume describes the implementation of these expert recommendations in the substantive offerings of, and the accompanying research on, the "Haus der kleinen Forscher" Foundation.
Exploring Math and Science in Preschool by
Engage Preschoolers in Counting, Comparing, and Discovering Their Way to Learning What every preschool teacher needs! Filled with practical strategies and useful information on math and science, this book offers: Learning center ideas Engaging activities Practical suggestions that are easy to implement Ideas that support the development and learning of every preschooler Children's book recommendations This excellent resource of engaging learning experiences for preschoolers was developed for you by the editors of Teaching Young Children.
The Go-To Guide for Engineering Curricula, PreK-5: Choosing and Using the Best Instructional Materials for Your Students by
How to engineer change in your elementary science classroom With the Next Generation Science Standards, your students won't just be scientists--they'll be engineers. But you don't need to reinvent the wheel. Seamlessly weave engineering and technology concepts into your PreK-5 math and science lessons with this collection of time-tested engineering curricula for science classrooms. Features include: A handy table that leads you straight to the chapters you need In-depth commentaries and illustrative examples A vivid picture of each curriculum, its learning goals, and how it addresses the NGSS More information on the integration of engineering and technology into elementary science education
Inspiring STEM Minds: Biographies and Activities for Elementary Classrooms by
The purpose of this book is to serve as a supplemental reference text for 21st century elementary classrooms. The primary objective is to help teachers inspire and engage their students in the STEM (science, technology, engineering, and mathematics) subjects. The push for incorporating STEM education in elementary school has become increasingly important, yet most educators and publishers have offered problem-based activities, without considering one of the most important pedagogical entry points to lesson planning--the hook or the opening. Inspiring STEM Minds aims at providing teachers an effective, easy to use text that they can use to discuss specific mathematicians, engineers, inventors, and scientists (although the individuals chosen for each section of the book are in no way an exhaustive or selective group that may characterize each discipline). This reference text is organized into four key sections, depicting the four disciplines that make up STEM education. Each section briefly gives historical background, as well as provides a problem or short activity designed to use everyday materials so that teachers can implement the activity in their classrooms. The classroom activities are directly related to each biography and have, we believe, great potential to engage students in the classroom. Each activity is also correlated to the National Standards, and we also supplement the activities with suggestions for interdisciplinary connections.
Science Education: An International Course Companion by
This book comprises a wide range of scholarly essays introducing readers to key topics and issues in science education. Science education has become a well established field in its own right, with a vast literature, and many active areas of scholarship. Science Education: An International Course Companion offers an entry point for students seeking a sound but introductory understanding of the key perspectives and areas of thinking in science education. Each account is self-contained and offers a scholarly and research-informed introduction to a particular topic, theme, or perspective, with both citations to key literature and recommendations for more advanced reading. Science Education: An International Course Companion allows readers (such as those preparing for school science teaching, or seeking more advanced specialist qualifications) to obtain a broad familiarity with key issues across the field as well as guiding wider reading about particular topics of interest. The book therefore acts as a reader to support learning across courses in science education internationally. The broad coverage of topics is such that that the book will support students following a diverse range of courses and qualifications. The comprehensive nature of the book will allow course leaders and departments to nominate the book as the key reader to support students--their core 'course companion' in science education.
STEM Education for the 21st Century by
This book chronicles the revolution in STEM teaching and learning that has arisen from a convergence of educational research, emerging technologies, and innovative ways of structuring both the physical space and classroom activities in STEM higher education. Beginning with a historical overview of US higher education and an overview of diversity in STEM in the US, the book sets a context in which our present-day innovation in science and technology urgently needs to provide more diversity and inclusion within STEM fields. Research-validated pedagogies using active learning and new types of research-based curriculum is transforming how physics, biology and other fields are taught in leading universities, and the book gives profiles of leading innovators in science education and examples of exciting new research-based courses taking root in US institutions. The book includes interviews with leading scientists and educators, case studies of new courses and new institutions, and descriptions of site visits where new trends in 21st STEM education are being developed. The book also takes the reader into innovative learning environments in engineering where students are empowered by emerging technologies to develop new creative capacity in their STEM education, through new centers for design thinking and liberal arts-based engineering. Equally innovative are new conceptual frameworks for course design and learning, and the book explores the concepts of Scientific Teaching, Backward Course Design, Threshold Concepts and Learning Taxonomies in a systematic way with examples from diverse scientific fields. Finally, the book takes the reader inside the leading centers for online education, including Udacity, Coursera and EdX, interviews the leaders and founders of MOOC technology, and gives a sense of how online education is evolving and what this means for STEM education. This book provides a broad and deep exploration into the historical context of science education and into some of the cutting-edge innovations that are reshaping how leading universities teach science and engineering. The emergence of exponentially advancing technologies such as synthetic biology, artificial intelligence and materials sciences has been described as the Fourth Industrial Revolution, and the book explores how these technologies will shape our future will bring a transformation of STEM curriculum that can help students solve many the most urgent problems facing our world and society.
STEM the Tide: Reforming Science, Technology, Engineering, and Math Education in America by
Proven strategies for reforming STEM education in America's schools, colleges, and universities. One study after another shows American students ranking behind their international counterparts in the STEM fields--science, technology, engineering, and math. Businesspeople and cultural critics such as Bill Gates warn that this alarming situation puts the United States at a serious disadvantage in the high-tech global marketplace of the twenty-first century, and President Obama places improvement in these areas at the center of his educational reform. What can be done to reverse this poor performance and to unleash America's wasted talent? David E. Drew has good news--and the tools America needs to keep competitive. Drawing on both academic literature and his own rich experience, Drew identifies proven strategies for reforming America's schools, colleges, and universities, and his comprehensive review of STEM education in the United States offers a positive blueprint for the future. These research-based strategies include creative and successful methods for building strong programs in science and mathematics education and show how the achievement gap between majority and minority students can be closed. A crucial measure, he argues, is recruiting, educating, supporting, and respecting America's teachers. Accessible, engaging, and hard hitting, STEM the Tide is a clarion call to policymakers, administrators, educators, and everyone else concerned about students' participation in the STEM fields and America's competitive global position.
Teaching STEM Literacy: A Constructivist Approach for Ages 3 to 8 by
Teaching STEM Literacy is comprised of ready-made, open-ended lessons reviewed and tested by teachers, which help educators integrate STEM learning into the early childhood classroom. Lessons are linked to the Next Generation Science Standards, and encourage creative ideas for three-dimensional STEM learning that are developmentally appropriate and exemplified through children's literature. The three-dimensional STEM learning--content, concepts, and practices--comes in twelve, ready-made open-ended teaching units that make it easy to teach science and inquiry to young children. This book uses the 5E framework (engagement, exploration, explanation, elaboration, and evaluation) to cultivate children's skills of observation, questioning, and data collection by combining discovery, problem solving, and engineering solutions to authentic questions that young children might ask. Juliana Texley holds a master's in biology and chemistry, and a PhD in curriculum development/science education from Wayne State University, and has over thirty years of teaching experience. She is a graduate-level adjunct professor specializing in educational technology and assessment, science, and science teaching at Central Michigan University and Lesley University in Massachusetts. Texley has been a National Science Teachers Association (NSTA) member for thirty years, and served as president from 2014-2015. She is on the board for Young Voices for the Planet and led the development and evaluation of online learning programs for JASON Learning. Ruth M. Ruud has over thirty-five years of teaching experience ranging from early childhood to undergraduate studies. She has a master's degree in education with additional coursework in all areas of science. A former Delta Education FOSS (Full Option Science System) consultant, Ruth currently works as an adjunct professor teaching physical geography courses at Cleveland State University. She served as president of the Pennsylvania Science Teachers Association and has chaired a number of committees of the National Science Teachers Association (NSTA), is a member of the NSTA Recommends committee, and is the head reviewer for the NSTA Shell Science Lab Challenge.
Transformative Science Education: Change how your students experience the world by
Use this book to move science learning out of the classroom and into everyday life. Science has a profound capacity to transform how we experience the world, but it can be challenging to foster transformative experiences. When it comes to the science classroom, too often the Las Vegas slogan applies: What happens here stays here. Based on over 20 years of research, this guide presents the Teaching for Transformative Experiences in Science instructional model to help teachers craft practices that will encourage students to apply science concepts beyond defined school boundaries. This practical resource includes detailed vignettes, classroom examples, guidance for trying out strategies, and materials for assessing transformative experiences. Book Features: Introduction to transformative experience theory. A model of teaching based on empirical classroom research. Vignettes and classroom examples that illustrate application of the model strategies. "Try It Out" guides. Assessment materials.