As the use of technology spreads throughout communities, it is a natural progression that those resources will be given to classrooms. In order to provide the best education possible, all resources must be used. Learning, however, is not only done within the classroom; community learning (such as Society 4.0 and Society 5.0) involves remote learning and learning in the community. Cases on Technologies in Education From Classroom 2.0 to Society 5.0 presents case studies on the best practices from practitioners using future technologies for education beyond the classroom. The content within the book specifically includes Classroom 2.0 (networking of education institutions and learners), School 3.0 (situated learning in community venues beyond the classroom), Society 4.0 (sharing education practice and delivering learning remotely), and Society 5.0 (ubiquitous education in smart cities, towns, and villages). Covering topics such as cross-community education, ed-tech, and innovation paths, this book is an in-depth reference for administrators, schools, colleges, and universities looking to embed technology into the way they deliver education, as well as educational software developers, IT consultants, researchers, students, academicians, and teachers looking to enhance the way they educate their learners through technology.

Working in an interdisciplinary manner is long pursued but a difficult goal of science and mathematics education. The interdisciplinarity of science and mathematics can occur when connections between those disciplines are identified and developed. These connections could be expressed in the educational policies, curriculum, or in the science and mathematics teachers' educational practices. Sometimes those connections are scarce, but in other moments, full integration is achieved. Interdisciplinarity Between Science and Mathematics in Education presents results of good practices and interdisciplinary educational approaches in science and mathematics. It presents a broad range of approaches for all educational levels, from kindergarten to university. Covering topics such as computer programming, mathematics in environmental issues, and simple machines, this premier reference source is an excellent resource for administrators and educators of both K-12 and higher education, government officials, pre-service teachers, teacher educators, librarians, researchers, and academicians.