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This open access book is dedicated to exploring methods and charting the course for enhancing engineering education in and beyond 2023. It delves into the idea that education, coupled with social connections, is indispensable for a more profound comprehension of the world and the creation of an improved quality of life. The book serves as a conduit for incorporating complex problem-solving into engineering education across various formats. It offers a structured approach for tackling complex issues, comparing an array of techniques for managing complexity within the realm of engineering education. Moreover, the book scrutinizes several complex case studies derived from the United Nation's Sustainable Development Goals. Additionally, it explores intricate problem-solving and curriculum change case studies specific to engineering education from Harvard University, the University of Technology Sydney, and Aalborg University.
Like all enthusiastic teachers, you want your students to see the connections between important science concepts so they can grasp how the world works now-- and maybe even make it work better in the future. But how exactly do you help them learn and apply these core ideas? Just as its subtitle says, this important book aims to reshape your approach to teaching and your students' way of learning. Building on the foundation provided by A Framework for K- 12 Science Education, which informed the development of the Next Generation Science Standards, the book' s four sections cover these broad areas: 1. Physical science core ideas explain phenomena as diverse as why water freezes and how information can be sent around the world wirelessly. 2. Life science core ideas explore phenomena such as why children look similar but not identical to their parents and how human behavior affects global ecosystems. 3. Earth and space sciences core ideas focus on complex interactions in the Earth system and examine phenomena as varied as the big bang and global climate change. 4. Engineering, technology, and applications of science core ideas highlight engineering design and how it can contribute innovative solutions to society' s problems. Disciplinary Core Ideas can make your science lessons more coherent and memorable, regardless of what subject matter you cover and what grade you teach. Think of it as a conceptual tool kit you can use to help your students learn important and useful science now-- and continue learning throughout their lives.
This open access book is dedicated to exploring methods and charting the course for enhancing engineering education in and beyond 2023. It delves into the idea that education, coupled with social connections, is indispensable for a more profound comprehension of the world and the creation of an improved quality of life. The book serves as a conduit for incorporating complex problem-solving into engineering education across various formats. It offers a structured approach for tackling complex issues, comparing an array of techniques for managing complexity within the realm of engineering education. Moreover, the book scrutinizes several complex case studies derived from the United Nation's Sustainable Development Goals. Additionally, it explores intricate problem-solving and curriculum change case studies specific to engineering education from Harvard University, the University of Technology Sydney, and Aalborg University.
When it’s time for a game change, you need a guide to the new rules. Helping Students Make Sense of the World Using Next Generation Science and Engineering Practices provides a play-by-play understanding of the practices strand of A Framework for K–12 Science Education (Framework) and the Next Generation Science Standards (NGSS). Written in clear, nontechnical language, this book provides a wealth of real-world examples to show you what’s different about practice-centered teaching and learning at all grade levels. The book addresses three important questions: 1. How will engaging students in science and engineering practices help improve science education? 2. What do the eight practices look like in the classroom? 3. How can educators engage students in practices to bring the NGSS to life? Helping Students Make Sense of the World Using Next Generation Science and Engineering Practices was developed for K–12 science teachers, curriculum developers, teacher educators, and administrators. Many of its authors contributed to the Framework’s initial vision and tested their ideas in actual science classrooms. If you want a fresh game plan to help students work together to generate and revise knowledge—not just receive and repeat information—this book is for you.
This work provides a critical reexamination of the origin and development of America's land-grant colleges and universities, created by the most important piece of legislation in higher education. The story is divided into five parts that provide closer examinations of representative developments.Part I describes the connection between agricultural research and American colleges. Part II shows that the responsibility of defining and implementing the land-grant act fell to the states, which produced a variety of institutions in the nineteenth century. Part III details the first phase of the conflict during the latter decades of the nineteenth century about whether land colleges were intended to be agricultural colleges, or full academic institutions. Part IV focuses on the fact that full-fledged universities became dominant institutions of American higher education. The final part shows that the land-grant mission is alive and well in university colleges of agriculture and, in fact, is inherent to their identity.Including some of the best minds the field has to offer, this volume follows in the fine tradition of past books in Transaction's Perspectives on the History of Higher Education series.
New small business owners are constantly pressured to play a major role in the economic growth of their respected nation. However, revitalizing how individuals think, research, teach, and implement performance strategies to improve the operations of these small businesses is critical to entrepreneurial success. Reshaping Entrepreneurship Education With Strategy and Innovation is an essential reference source that discusses strategies to overcome performance barriers as well as implementation of effective entrepreneurial processes based on a wide range of global issues. Featuring research on topics such as authentic leadership, business ethics, and social entrepreneurship, this book is ideally designed for entrepreneurs, business professionals, scholars, researchers, students, and practitioners seeking coverage on innovative performance operations of small businesses.
This work provides a critical reexamination of the origin and development of America's land-grant colleges and universities, created by the most important piece of legislation in higher education. The story is divided into five parts that provide closer examinations of representative developments. Part I describes the connection between agricultural research and American colleges. Part II shows that the responsibility of defining and implementing the land-grant act fell to the states, which produced a variety of institutions in the nineteenth century. Part III details the first phase of the conflict during the latter decades of the nineteenth century about whether land colleges were intended to be agricultural colleges, or full academic institutions. Part IV focuses on the fact that full-fledged universities became dominant institutions of American higher education. The final part shows that the land-grant mission is alive and well in university colleges of agriculture and, in fact, is inherent to their identity. Including some of the best minds the field has to offer, this volume follows in the fine tradition of past books in Transaction's Perspectives on the History of Higher Education series.
Are we producing too many PhDs? Does the current graduate education system adequately prepare science and engineering students for today's marketplace? How do foreign students enter the picture? What should be the PhD of the future? These and other questions are addressed in this book by a blue-ribbon panel of scientists and engineers. Recommendations are aimed at creating a new PhD that would retain the existing strengths of the current system while substantially increasing the information available, the potential versatility of students, and the career options afforded to them by their PhD education.
This book comprises the proceedings of the International Conference on Transformations in Engineering Education conducted jointly by BVB College of Engineering & Technology, Hubli, India and Indo US Collaboration for Engineering Education (IUCEE). This event is done in collaboration with International Federation of Engineering Education Societies (IFEES), American Society for Engineering Education (ASEE) and Global Engineering Deans' Council (GEDC). The conference is about showcasing the transformational practices in Engineering Education space.
The traditional educational landscape often struggles to keep pace with the rapid advancements in technology and the evolving needs of both students and educators. This challenge has given rise to a crucial question; how can we effectively harness the full potential of next-generation educational technologies to shape a brighter future for education? A solution to this very question can be found within the pages ofReshaping Learning with Next Generation Educational Technologies. This book delves deep into the convergence of artificial intelligence (AI), disruptive technologies, and cutting-edge educational practices, revealing their transformative power. Through practical examples, visionary insights, and thought-provoking analyses, it provides a roadmap for educators, researchers, and professionals to navigate this changing educational landscape. It's a call to action, urging academia to seize the transformative potential of these groundbreaking technologies.