The fourth industrial revolution, or Industry 4.0, is characterized by the exponential pace of technology developments covering wide-ranging fields such as artificial intelligence, robotics, autonomous vehicles, 3D printing, nanotechnology, biotechnology, materials science, energy storage, and quantum computing. It is anticipated that it will result in a future that is volatile, uncertain, complex, and ambiguous; this has led to a widespread call for the development of 21st-century skills and competencies among the young, particularly in the science field. Fostering Science Teaching and Learning for the Fourth Industrial Revolution and Beyond considers how we prepare prospective science teachers for the fourth industrial revolution; how we create teacher education curricula that will help pre-service science teachers to be sufficiently versatile in the rapidly changing world; and which key perspectives, processes, methods, and tools have especially promising payoffs in the lives of pre-service science teachers. Covering key topics such as virtual reality, teacher preparation, and science classrooms, this premier reference source is ideal for policymakers, administrators, scholars, researchers, academicians, instructors, and students.

The chapters in this book represent a cross-section of research conducted in inquiry-based science education at primary levels of schooling in international contexts that include school settings in Australia, India, Singapore, South Africa, Turkey, Northern Ireland, and the United States. The book includes empirical studies on the role of inquiry-based learning in advancing students’ conceptual understanding and modelling proficiency, students’ understandings about the nature of scientific inquiry, classroom studies on teachers’ enactment of inquiry-based learning, teachers’ facilitation of classroom discourse for inquiry-based learning, and co-teaching in developing teachers in adopting an inquiry-based pedagogy. It was originally published as a special issue of the journal Education 3–13.

This timely book presents the latest scholarly research on the integration of Information Communications Technology (ICT) for enhanced STEM education in African schools and universities. Featuring critical discussion and illustration of key data-led arguments, this volume gives a comprehensive picture of the breadth, complexity, and diversity of issues present in different African countries. It highlights a diverse range of topics such as approaches to ICT integration, the use of digital technologies to support inquiry-based learning, teacher development, and contextual issues in ICT integration for STEM education. Chapters feature contributions and shared experiences from prominent science educators and researchers from across African regions, and demonstrate findings and reflections on emerging trends, pedagogical innovations, and research-informed practices on ICT integration in STEM education. Offering cutting-edge research on STEM and digital education in Africa, the book will appeal to researchers, postgraduate students, and scholars in the fields of STEM education, ICT education, digital education, and pedagogy.

School Science Practical Work in Africa presents the scope of research and practice of science practical work in African schools. It brings together prominent science educators and researchers from Africa to share their experience and findings on pedagogical innovations and research-informed practices on school science practical work. The book highlights trends and patterns in the enactment and role of practical work across African countries. Practical work is regarded as intrinsic to science teaching and learning and the form of practical work that is strongly advocated is inquiry-based learning, which signals a definite paradigm shift from the traditional teacher-dominated to a learner-centered approach. The book provides empirical research on approaches to practical work, contextual factors in the enactment of practical work, and professional development in teaching practical work. This book will be of great interest to academics, researchers and post-graduate students in the fields of science education and educational policy.

School Science Practical Work in Africa presents the scope of research and practice of science practical work in African schools. It brings together prominent science educators and researchers from Africa to share their experience and findings on pedagogical innovations and research-informed practices on school science practical work. The book highlights trends and patterns in the enactment and role of practical work across African countries. Practical work is regarded as intrinsic to science teaching and learning and the form of practical work that is strongly advocated is inquiry-based learning, which signals a definite paradigm shift from the traditional teacher-dominated to a learner-centered approach. The book provides empirical research on approaches to practical work, contextual factors in the enactment of practical work, and professional development in teaching practical work. This book will be of great interest to academics, researchers and post-graduate students in the fields of science education and educational policy.

The fourth industrial revolution, or Industry 4.0, is characterized by the exponential pace of technology developments covering wide-ranging fields such as artificial intelligence, robotics, autonomous vehicles, 3D printing, nanotechnology, biotechnology, materials science, energy storage, and quantum computing. It is anticipated that it will result in a future that is volatile, uncertain, complex, and ambiguous; this has led to a widespread call for the development of 21st-century skills and competencies among the young, particularly in the science field. Fostering Science Teaching and Learning for the Fourth Industrial Revolution and Beyond considers how we prepare prospective science teachers for the fourth industrial revolution; how we create teacher education curricula that will help pre-service science teachers to be sufficiently versatile in the rapidly changing world; and which key perspectives, processes, methods, and tools have especially promising payoffs in the lives of pre-service science teachers. Covering key topics such as virtual reality, teacher preparation, and science classrooms, this premier reference source is ideal for policymakers, administrators, scholars, researchers, academicians, instructors, and students.