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Exploring Nevada through Project-Based Leaning includes 50 well-thought-out projects designed for grades 3-5. In assigning your students projects that dig into NevadaÕs geography, history, government, economy, current events, and famous people, you will deepen their appreciation and understanding of Nevada while simultaneously improving their analytical skills and ability to recognize patterns and big-picture themes. Project-based learning today is much different than the craft-heavy classroom activities popular in the past. Inquiry, planning, research, collaboration, and analysis are key components of project-based learning activities today. However, that doesnÕt mean creativity, individual expression, and fun are out. They definitely arenÕt! Each project is designed to help students gain important knowledge and skills that are derived from standards and key concepts at the heart of academic subject areas. Students are asked to analyze and solve problems, to gather and interpret data, to develop and evaluate solutions, to support their answers with evidence, to think critically in a sustained way, and to use their newfound knowledge to formulate new questions worthy of exploring. While some projects are more complex and take longer than others, they all are set up in the same structure. Each begins with the central project-driving questions, proceeds through research and supportive questions, has the student choose a presentation option, and ends with a broader-view inquiry. Rubrics for reflection and assessments are included, too. This consistent framework will make it easier for you assign projects and for your students to follow along and consistently meet expectations. Encourage your students to take charge of their projects as much as possible. As a teacher, you can act as a facilitator and guide. The projects are structured such that students can often work through the process on their own or through cooperation with their classmates.
"Forgive yourself for not having the foresight to know what now seems so obvious in hindsight." -Judy Belmont How often have you caught yourself saying "I wish I knew that" or "If only they knew..."? We have all been there. We can always look back and wish that we could change something, but the key is to use that knowledge and make a difference now. We learn from reflecting on our own experiences and by connecting with other educators to learn from theirs. In Things I Wish [...] Knew, Rachelle Dené Poth has brought in fifty educators with different experiences and backgrounds in education to share something they wish they or others knew. Each vignette shares an eye-opening experience, a valuable lesson learned, advice for overcoming challenges, or simply offers some inspiration or words of wisdom. Throughout this book, you will learn from educators who hope to help others make a difference, to make some changes in their practice, and to avoid missing out on opportunities. The book explores things that each educator wishes they knew when they started teaching, something they wish that administrators knew, or things that they wish all students knew. I hope that this book will lead you to reflect on your own practice and inspire you to share your story too.
Project-Based Learning for Gifted Students: A Step-by-Step Guide to PBL and Inquiry in the Classroom outlines how to implement PBL in the gifted classroom. This fully updated second edition: Guides teachers to create a project-based learning environment in their own classroom. Includes helpful examples and reproducible lessons that all teachers can use to get started. Focuses on student choice, teacher responsibility, and opportunities for differentiation. Provides a step-by-step process for linking projects with standards and finding the right structure. Helps build a practical and engaging classroom environment. Use this must-have guide to challenge students' thinking, promote rigor, and build engaging authentic, real-world, inquiry-based learning experiences.
"Place: it's where we're from; it's where we're going. . . . It asks for our attention and care. If we pay attention, place has much to teach us." With this belief as a foundation, The Power of Place offers a comprehensive and compelling case for making communities the locus of learning for students of all ages and backgrounds. Dispelling the notion that place-based education is an approach limited to those who can afford it, the authors describe how schools in diverse contexts—urban and rural, public and private—have adopted place-based programs as a way to better engage students and attain three important goals of education: student agency, equity, and community. This book identifies six defining principles of place-based education. Namely, it 1. Embeds learning everywhere and views the community as a classroom. 2. Is centered on individual learners. 3. Is inquiry based to help students develop an understanding of their place in the world. 4. Incorporates local and global thinking and investigations. 5. Requires design thinking to find solutions to authentic problems. 6. Is interdisciplinary. For each principle, the authors share stories of students whose lives were transformed by their experiences in place-based programs, elaborate on what the principle means, demonstrate what it looks like in practice by presenting case studies from schools throughout the United States, and offer action steps for implementation. Aimed at educators from preK through high school, The Power of Place is a definitive guide to developing programs that will lead to successful outcomes for students, more fulfilling careers for teachers, and lasting benefits for communities.
This edited volume showcases work from the emerging field of design-based research (DBR) within social studies education and explores the unique challenges and opportunities that arise when applying the approach in classrooms. Usually associated with STEM fields, DBR’s unique ability to generate practical theories of learning and to engineer theory-driven improvements to practice holds meaningful potential for the social studies. Each chapter describes a different DBR study, exploring the affordances and dilemmas of the approach. Chapters cover such topics as iterative design, using and producing theory, collaborating with educators, and the ways that DBR attends to historical, political, and social context.
This book will help readers develop their leadership skills by drawing from a higher purpose to find passion to lead purposefully and creatively. Team leaders will learn how to identify a problem from a 360-degree perspective to meet the needs of the customer and how to select a diverse team that can work synergistically together to innovate. This process involves matching expertise to project and project to expertise. Successful leaders acquire a combination of knowledge and experiences help them make better decisions. Dr. Lamberg also provides strategies for growing as a leader and for making decisions so that project goals and team members’ expertise align to create optimal conditions for thinking and productivity.
Threshold Concepts in Problem-based Learning provides a critical discussion and guidance for educational researchers, teachers, innovators and policy makers wanting to explore the interrelationship of PBL and threshold concepts. Beginning with an introduction to both areas and offering an overview of the current issues, this volume delivers 11 innovative, research-based chapters from around the world. It outlines the major threshold concepts faced by those disciplines that have adopted PBL, and then examines the impact of threshold concepts on student learning. What is unique about this text is the way it examines PBL as a pedagogy in which students get stuck in the learning process and the thresholds they encounter as they learn to adapt.
This edited book is a collection of selected research papers presented at the 2022 3rd International Conference on Artificial Intelligence in Education Technology (AIET 2022), held in Wuhan, China, on July 1–3, 2022. AIET establishes a platform for AI in education researchers to present research, exchange innovative ideas, propose new models, as well as demonstrate advanced methodologies and novel systems. The book is divided into five main sections – 1) AI in Education in the Post-COVID New Norm, 2) Emerging AI Technologies, Methods, Systems and Infrastructure, 3) Innovative Practices of Teaching and Assessment Driven by AI and Education Technologies, 4) Curriculum, Teacher Professional Development and Policy for AI in Education, and 5) Issues and Discussions on AI In Education and Future Development. Through these sections, the book provides a comprehensive picture of the current status, emerging trends, innovations, theory, applications, challenges and opportunities of current AI in education research. This timely publication is well aligned with UNESCO’s Beijing Consensus on Artificial Intelligence (AI) and Education. It is committed to exploring how AI may play a role in bringing more innovative practices, transforming education in the post-pandemic new norm and triggering an exponential leap toward the achievement of the Education 2030 Agenda. Providing broad coverage of recent technology-driven advances and addressing a number of learning-centric themes, the book is an informative and useful resource for researchers, practitioners, education leaders and policy-makers who are involved or interested in AI and education.
Neuroscience contributes to the basic understanding of the neural mechanisms underlying human development and learning. Educational neuroscience is an interdisciplinary research field that seeks to translate research findings on neural mechanisms of learning to educational practice and policy and to understand the effects of education on the brain. It is an emerging multidisciplinary field where the aim is to link basic research in neuroscience, psychology, and cognitive science, with educational technology. Educational neuroscience is often associated with the ‘science’ of learning and encompasses a broad range of scientific disciplines, from basic neuroscience to cognitive psychology to computer science to social theory. It is an interdisciplinary research field that seeks to translate research findings on neural mechanisms of learning to educational practice and policy and to understand the effects of education on the brain. Neuroscience research usually focuses only on learning, but there is a developing subfield within neuroscience called “Mind, Brain and Education” (MBE) that attempts to link research with teaching. MBE researchers consider how to take advantage of the natural human attention span, how to use studies about memory systems to inform lesson planning, and how to use research on the role of emotions in learning. In neuroscience research, progress has been extraordinary, including advances in both understanding and technology. Scientists from a wide range of disciplines are being attracted to the challenge of understanding the brain. In spite of discoveries regarding the structure of the brain, we still do not understand how the nervous system allows us to see, hear, learn, remember, and plan certain actions. Educators and schools around the globe are increasingly relying on the knowledge, techniques, and programs developed based on a new understanding of how our brains work. This knowledge is being applied to the classroom. A growing amount of attention is being paid to neuroscience and how the results of empirical research may be used to help individuals learn more effectively. In this Research Topic, academic scientists, researchers, and scholars will share their experiences and research results on all aspects of brain-based learning and educational neuroscience. Furthermore, it provides a premier interdisciplinary platform for researchers, practitioners, and educators to present the latest developments, trends, and concerns. In addition, it discusses practical challenges encountered and solutions adopted in the field of Educational Neuroscience. The focus of this Research Topic is to bring together academic scientists, researchers, and scholars to exchange and share their experiences and research findings related to brain-based learning and educational neuroscience. Researchers, practitioners, and educators will also be able to present and discuss the newest innovations, trends, and concerns. This will include practical challenges encountered and solutions adopted in Educational Neuroscience as well as in related fields. All original and unpublished papers describing conceptual, constructive, empirical, experimental, or theoretical work in any area of Brain Based Learning and Educational Neuroscience or studies that explore the intersections between neuroscience, psychology, and education are highly encouraged. Aspects, topics, and critical issues of interest include, but are not limited to: neuroscience applications in enhanced-learning, how students learn mathematics and language, personal motivation, social and emotional learning, motivation, the biology of learning, brain functions and information processing, and many others.