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Did you know you have the power and the materials at your fingertips to facilitate the actual brain growth of students? This book is a practical resource to engage K-6 students with STEAM content through their five senses: seeing, listening, touch/movement, smell and taste. It combines historical research, practical suggestions, and current practices on the stages of cognitive development and the brain’s physical response to emotion and novelty; to help you learn ways to transform ordinary lesson plans into novel and exciting opportunities for students to learn through instruction, exploration, inquiry, and discovery. In addition to providing examples of sensory-rich unit plans, the authors take you through the step-by-step process on how to plan a thematic unit and break it down into daily seamless lesson plans that integrate science, technology, engineering, arts, and mathematics. With 25 themed STEAM unit plans and activities based on national standards, up-to-date research on brain science, and real classroom experience, this book shows multiple ways to develop and deliver active multisensory activities and wow your students with sights and sounds as soon as they come through the door of your classroom.
"Did you know you have the power and the materials at your fingertips to facilitate the actual brain growth of students? This book is a practical resource to engage K-6 students with STEAM content through their five senses: seeing, listening, touch/movement, smell and taste. It combines historical research, practical suggestions, and current practices on the stages of cognitive development and the brain's physical response to emotion and novelty; to help you learn ways to transform ordinary lesson plans into novel and exciting opportunities for students to learn through instruction, exploration, inquiry, and discovery. In addition to providing examples of sensory-rich unit plans, the authors take you through the step-by-step process on how to plan a thematic unit and break it down into daily seamless lesson plans that integrate science, technology, engineering, arts, and mathematics. With 25 themed STEAM unit plans and activities based on national standards, up-to-date research on brain science, and real classroom experience, this book shows multiple ways to develop and deliver active multisensory activities and wow your students with sights and sounds as soon as they come through the door of your classroom"--
Help your students connect historic technologies with today’s STEAM concepts through the lens of crafting! This book, written by a science education professor and a middle school STEM teacher, provides guidance for turning classic crafts into transdisciplinary STEAM lessons for grades 3–8. Ready-to-use lessons outline the history, science, mathematics, and engineering embedded within ten hands-on crafts from around the world. Each chapter outlines the history of a craft, its social impact, and the mathematics, engineering, and scientific concepts and skills embedded in the craft. Content standards from art, history, English language arts, technology, mathematics, and science are embedded within each unit. Lessons are supplemented with ready-to-photocopy handouts, guiding questions, and logistical support such as shopping lists and safety procedures. Activities have all been classroom-tested to ensure appropriate leveling and applicability across STEAM disciplines. Ideal for any STEM or STEAM classroom across upper elementary and middle schools, this book helps make STEM concepts meaningful and tangible for your students. Rather than just reading about science, technology, mathematics, or engineering, students will become makers and engage in STEAM directly, just as original crafters have done for centuries. Additional instructional materials are available at: https://steamcrafts.weebly.com/
This book approaches STEAM (Science, Technology, Engineering, the Arts and Mathematics) in early childhood education from multiple angles. It focuses on the teaching and learning of children from two years of age to the early years of school. Proponents of STEAM describe how it can create opportunities for children to learn creatively, and various chapter authors make strong connections between discipline areas within the context of an informal curriculum. Others advocate for an integrated STEM, rather than STEAM, approach. With a light touch on theory and a focus on how to embed STE(A)M in an integrated early childhood curriculum, the editors and contributors examine the STEAM versus STEM question from multiple angles. The chapters provide helpful frameworks for parents, teachers and higher education institutions, and make practical suggestions of ways to support young children’s inquiry learning. Drawing on pedagogy and research from around the world, this book will be of interest to scholars of STEAM education, early childhood educators, students of early childhood education and parents of young children.
Introducing Engineering to K-8 Students will provide you with the tools you need to incorporate engineering design into your classroom. Rather than prescribing a specific curriculum to follow, this book will help you engage your students with hands-on, open-ended engineering design problems that can be easily integrated into your existing classroom setup. Beginning with the basics of K-8 engineering, and advancing to topics such as integrating engineering with other disciplines, documentation, and assessments, the chapters provide a how-to on creating open-ended engineering activities, design tasks, and projects that are reflective of the academic, social, emotional, developmental, and community goals of your students. An additional focus is on ways to adapt these pedagogical approaches to meet the needs of all students, representative of racially, ethnically, socioeconomically, and gender diverse populations and students who receive special education services. Case studies and practical implementation strategies are presented alongside more than fifteen lesson plans, with tips on how to modify the tasks presented in the book to work with your classroom and students. This user-centered approach will also help you create your own engineering lessons that meet your individual classroom objectives and interests, and be able to recognize and classify your students’ engineering behaviors to support them in enacting their ideas. No matter your experience or comfort level, this book will be an invaluable resource for elementary and middle school science and technology teachers at all career stages who are looking to introduce engineering design to their students. Additional classroom resources can be found online at introducingengineering.org.
The second edition of this practical, how-to guide from expert STEM teacher Anne Jolly reveals the secrets behind designing projects that involve students in using science, math, and technology to engineer solutions for real-world problems. Fully revised and updated from the first edition, each chapter is packed with tools and strategies to help you design and lead exciting STEM projects and lessons and help your students grow into creative thinkers, innovators, and collaborators prepared for life in the 21st century. You’ll learn how to: Select engaging and relevant STEM challenges. Design your own STEM projects using the engineering design process and other acknowledged STEM criteria. Convert existing lessons into quality STEM projects. Include students of different ethnicities and other underrepresented children. Build students’ abilities to work successfully in teams and practice important life skills. Integrate technology into your projects in authentic ways. Assess students’ understanding of STEM concepts and procedures, problem-solving progress, and level of engagement in the project. Involve students in assessing and adjusting their own progress throughout the project. Throughout this user-friendly book you’ll find design tools such as checklists, activities, and assessments to aid you in designing and adapting energizing STEM lessons with your students in Grades 4–8. These tools, as well as other teacher resources, are also available as free downloads from the book website, www.stem-by-design.com.
This book offers a creative and practical guide for K-6 teachers on how to effectively integrate movement into the curriculum to increase student engagement, deepen learning, improve retention, and get kids moving during the school day. Chapters offer concrete ideas for integrating creative movement and theater into subjects such as math, science, literacy, and social studies. Drawing on two decades of experience, Dr. Becker outlines key skills, offers rich examples, and provides adaptable and flexible classroom tested lesson plans that align with Common Core Standards, the NGSS, C3 Social Studies Standards, and the National Core Arts Standards. Activities are grounded in arts integration, which is steadily gaining interest in school reform as an effective teaching strategy that increases student outcomes academically and socially—particularly effective for students who have traditionally been marginalized. This book will benefit practicing educators who want to invigorate their practice, preservice teachers who want to expand their toolkit, and school leaders looking to employ policies that support movement and arts during the school day. Jump in and get your kids Learning Through Movement and see how active and engaging learning can be!
A collaboration between a seasoned math teacher and a research mathematician, this resource offers balanced instructional ideas based on student intellectual engagement and skilled teacher leadership. It is solidly grounded in many areas of classroom practice, but rather than serving as a prescriptive how-to manual, the authors invite reflection and discussion across classrooms and math departments, much in the way you would share ideas in the teachers’ lounge or across the table at a conference. Chapters offer practical suggestions and concrete examples to teachers of grades 6–12 on just about every aspect of the job: manipulatives, technology, lesson planning, group work, classroom discussion, and more. In opposition to the idea of a “one-size-fits-all” curriculum, the authors explain how to integrate teaching techniques: formal and informal, student-centered and teacher-led, experiential and rigorous. Chapters also include vignettes, as well as many links to curricular materials. Ideal for math educators of grades 6–12, this book is both comprehensive in its strategies and sensitive to the complexities of teaching. For these reasons, math departments, coaches, teacher leaders, and faculty at other levels can also easily reference its content where relevant. This book offers multiple entry points for teachers and departments to discuss and enhance their practice, making it essential reading for any math educator or professional development opportunity.
The widely used STEM education book, updated Teaching and Learning STEM: A Practical Guide covers teaching and learning issues unique to teaching in the science, technology, engineering, and math (STEM) disciplines. Secondary and postsecondary instructors in STEM areas need to master specific skills, such as teaching problem-solving, which are not regularly addressed in other teaching and learning books. This book fills the gap, addressing, topics like learning objectives, course design, choosing a text, effective instruction, active learning, teaching with technology, and assessment—all from a STEM perspective. You’ll also gain the knowledge to implement learner-centered instruction, which has been shown to improve learning outcomes across disciplines. For this edition, chapters have been updated to reflect recent cognitive science and empirical educational research findings that inform STEM pedagogy. You’ll also find a new section on actively engaging students in synchronous and asynchronous online courses, and content has been substantially revised to reflect recent developments in instructional technology and online course development and delivery. Plan and deliver lessons that actively engage students—in person or online Assess students’ progress and help ensure retention of all concepts learned Help students develop skills in problem-solving, self-directed learning, critical thinking, teamwork, and communication Meet the learning needs of STEM students with diverse backgrounds and identities The strategies presented in Teaching and Learning STEM don’t require revolutionary time-intensive changes in your teaching, but rather a gradual integration of traditional and new methods. The result will be a marked improvement in your teaching and your students’ learning.
This accessible and timely edited volume is at once provocative and original in shedding new light on the roles of science and arts creativities for 'future-making education'. An international set of expert authors grapple with innovative ways of thinking about the complex, textured and contested entanglements of knowledge and practice reconfigurings in STEAM education.