This book brings together a collection of work from around the world in order to consider effective STEM, robotics, mobile apps education from a range of perspectives. It presents valuable perspectives—both practical and theoretical—that enrich the current STEM, robotics, mobile apps education agenda. As such, the book makes a substantial contribution to the literature and outlines the key challenges in research, policy, and practice for STEM education, from early childhood through to the first school age education. The audience for the book includes college students, teachers of young children, college and university faculty, and professionals from fields other than education who are unified by their commitment to the care and education of young children.
As personal computing devices transition from traditional computers to contemporary mobile platforms, a global revolution in technology-based learning is underway. In the context of contemporary education, a critical challenge involves aligning traditional pedagogical methods with the developmental needs of today's learners. The intersection of Information and Communication Technologies (ICT) and education is pivotal, with mobile devices emerging as transformative catalysts. New Approaches in Mobile Learning for Early Childhood Education explores the advantages inherent in mobile learning, highlighting various forms of ICT as technically appropriate tools that cater to the developmental needs of children. The book underscores the distinctive benefits of mobile learning, such as heightened user motivation, intuitive usability, and high accessibility and reliability. It positions ICT as an indispensable asset, overshadowing conventional teaching approaches, and emphasizes the principal benefit of these advancements: the facilitation of accelerated and more effective learning in education. Within the pages of this book, empirical studies unravel the transformative potential of mobile learning applications and their corresponding pedagogical strategies. Tailored for educators, researchers, and policymakers, the book delves into diverse subject domains and age groups, navigating through topics such as mobile learning intricacies, educational applications for children, and innovative science and mathematics education strategies.
This book focuses on recent advances in maker education and in human-robot interaction and on the integration of intelligent educational robots (IER) in P-12 education. It covers various topics and trends about the evolution of maker education and the use of IER and artificial intelligence (AI) in P-12 education. This book offers an overview of recent research into the adoption, integration, advancements, and impact of IER and AI in education. It helps researchers, practitioners, professionals, and academicians of various scientific disciplines explore and better comprehend the state of the art of maker education, AI, and IER, their advancements, impact, and future potentials in education.
This book provides insight into the importance of advanced innovative technologies such as the Internet of Things (IoT), artificial intelligence (AI), and Metaverse as part of information and communication technology (ICT) solutions in education. Key features of this book include the recent and emerging developments in various specializations in education and finding their solutions by incorporating IoT, AI and ICT. This book presents useful applications, interventions, and case studies that cater to their improved requirements. Topics include formal and services based on IoT; AI technology for IoT-based educational delivery; interfacing devices to IoT; smart educational services; ChatGPT; Smartbots; and more. The authors include several practical solutions and applications of IoT and ICT in education. The book applies to researchers, academics, students, educators and practitioners around the world.
Teacher and student access to technology in both schools and at home continues to rise. Due to this increase, there is a need to examine how technology is supporting teaching and learning in STEM classrooms from early childhood through college-level mathematics. To ensure it is utilized appropriately, further study on the use of technology in classrooms where students are learning science, technology, engineering, and mathematics content is required. Technology Integration and Transformation in STEM Classrooms offers meaningful and comprehensive examples of implementing technology to support STEM teaching and learning and provides a deeper understanding of how to ensure technology is used to enhance the learning environment. The book also details how educators can select effective learning tools for their classrooms. Covering key topics such as student engagement, active learning, teacher leaders, and e-learning, this reference work is ideal for administrators, policymakers, educational leaders, researchers, academicians, scholars, practitioners, instructors, and students.
This book provides a fresh perspective on recent debates around integrating STEAM (Science, Technology, Engineering, Arts, and Mathematics) education in early childhood. The book offers inspiration and practical advice for educators and researchers. It suggests concrete ways to engage young children in STEAM learning activities and promote their development. With contributions from international experts, the book discusses how to develop age-appropriate STEAM learning activities for young children. Divided into four parts, the book covers a wide range of topics, including the perceptions and practices of STEAM education among early childhood teachers in different countries, the use of new pedagogies and technologies to promote equitable and accessible STEAM education, the role of teacher education and policy in reducing inequality in STEAM education, and how early STEAM education can promote social change and achieve sustainable development goals. The book highlights the importance of STEAM education in providing young children with the necessary skills to create a more sustainable and equitable world. Overall, this book provides an important contribution to help critique and improve how early childhood educators view and practice STEAM education across cultures. It proposes ideas for achieving sustainable development goals through high-quality early STEAM education. The book appeals to early childhood educators and researchers, as it draws on cross-cultural viewpoints to critically examine how teachers understand and implement STEAM education across different cultures along with exploring how cultural values and goals shape early STEAM education.
Over the last few years, increasing attention has been focused on the development of children’s acquisition of 21st-century skills and digital competences. Consequently, many education scholars have argued that teaching technology to young children is vital in keeping up with 21st-century employment patterns. Technologies, such as those that involve robotics or coding apps, come at a time when the demand for computing jobs around the globe is at an all-time high while its supply is at an all-time low. There is no doubt that coding with robotics is a wonderful tool for learners of all ages as it provides a catalyst to introduce them to computational thinking, algorithmic thinking, and project management. Additionally, recent studies argue that the use of a developmentally appropriate robotics curriculum can help to change negative stereotypes and ideas children may initially have about technology and engineering. The Handbook of Research on Using Educational Robotics to Facilitate Student Learning is an edited book that advocates for a new approach to computational thinking and computing education with the use of educational robotics and coding apps. The book argues that while learning about computing, young people should also have opportunities to create with computing, which have a direct impact on their lives and their communities. It develops two key dimensions for understanding and developing educational experiences that support students in engaging in computational action: (1) computational identity, which shows the importance of young people’s development of scientific identity for future STEM growth; and (2) digital empowerment to instill the belief that they can put their computational identity into action in authentic and meaningful ways. Covering subthemes including student competency and assessment, programming education, and teacher and mentor development, this book is ideal for teachers, instructional designers, educational technology developers, school administrators, academicians, researchers, and students.
The implementation of virtual environments in education has been rapidly increasing in frequency after the COVID-19 pandemic. As these technologies rise in popularity, it is essential to understand the roles digital technologies play in fostering connections and learning, the affordances of digital texts and spaces for virtual classroom experiences, the difficulties educators have faced and how these practices have been crafted to meet these challenges, and more. Innovations in Digital Instruction Through Virtual Environments advances knowledge about the pedagogical decisions and lived experiences of researchers and educators both before and after the COVID-19 pandemic. It features research from those who have worked to sustain and develop digital/media pedagogical practices. Covering topics such as active learning environments, emotional labor, and textual engagements, this premier reference source is an excellent resource for educators and administrators of both K-12 and higher education, pre-service teachers, teacher educators, librarians, researchers, and academicians.