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Dr Peter Milton, Director of Programme Review, Quality Assurance Agency I am grateful to the authors for giving me the opportunity to write this foreword, mainly because it represents the first occasion that the Fund for the Development of Teaching and Learning (FDTL) has led directly to a pUblication such as this. In my former capacity as Director of Quality Assessment at the Higher Education Funding Council for England (HEFCE), I chaired the FDTL Committee during 1996/7 and am delighted to see the projects which were selected so painstakingly leading to successful outcomes. Assessment of the quality of higher education (HE) was introduced in 1993 and was intended to improve public information about what was on offer in British universities and colleges, as well as to assist in the enhancement of educational opportunities for students. This was part of a larger agenda in which educational quality and the standards achieved by students have come under increasing scrutiny, with a long-term objective of linking funding allocations to the quality of the provision. It was in this context that the FDTL Initiative was launched in 1995 to support projects aimed at stimulating developments in teaching and learning and to encourage the dissemination of good practice across the HE sector. Good practice is identified through the process of quality assessment and bids for funding can only be made by those institutions which have demonstrated high quality provision. To date, the programme includes 63 projects drawn from 23 subject areas.
Why so few African American and Latino/a students study computer science: updated edition of a book that reveals the dynamics of inequality in American schools. The number of African Americans and Latino/as receiving undergraduate and advanced degrees in computer science is disproportionately low. And relatively few African American and Latino/a high school students receive the kind of institutional encouragement, educational opportunities, and preparation needed for them to choose computer science as a field of study and profession. In Stuck in the Shallow End, Jane Margolis and coauthors look at the daily experiences of students and teachers in three Los Angeles public high schools: an overcrowded urban high school, a math and science magnet school, and a well-funded school in an affluent neighborhood. They find an insidious “virtual segregation” that maintains inequality. The race gap in computer science, Margolis discovers, is one example of the way students of color are denied a wide range of occupational and educational futures. Stuck in the Shallow End is a story of how inequality is reproduced in America—and how students and teachers, given the necessary tools, can change the system. Since the 2008 publication of Stuck in the Shallow End, the book has found an eager audience among teachers, school administrators, and academics. This updated edition offers a new preface detailing the progress in making computer science accessible to all, a new postscript, and discussion questions (coauthored by Jane Margolis and Joanna Goode).
This book presents a collection of meta-studies, reviews, and scientometric analyses that together reveal a fresh picture about the past, present, and future of computing education research (CER) as a field of science. The book begins with three chapters that discuss and summarise meta-research about the foundations of CER, its disciplinary identity, and use of research methodologies and theories. Based on this, the book proceeds with several scientometric analyses, which explore authors and their collaboration networks, dissemination practices, international collaboration, and shifts in research focus over the years. Analyses of dissemination are deepened in two chapters that focus on some of the most influential publication venues of CER. The book also contains a series of country-, or region-level analyses, including chapters that focus on the evolution of CER in the Baltic Region, Finland, Australasia, Israel, and in the UK & Ireland. Two chapters present case studies of influential CER initiatives in Sweden and Namibia. This book also includes chapters that focus on CER conducted at school level, and cover crucially important issues such as technology ethics, algorithmic bias, and their implications for CER.In all, this book contributes to building an understanding of the past, present and future of CER. This book also contributes new practical guidelines, highlights topical areas of research, shows who to connect with, where to publish, and gives ideas of innovative research niches. The book takes a unique methodological approach by presenting a combination of meta-studies, scientometric analyses of publication metadata, and large-scale studies about the evolution of CER in different geographical regions. This book is intended for educational practitioners, researchers, students, and anyone interested in CER. This book was written in collaboration with some of the leading experts of the field.
Previously known as Teaching ICT, this second edition has been carefully revised to meet the new demands of computer science as a curriculum subject. With a clear focus on the theory and practice that supports high quality teaching, this textbook provides pragmatic guidance on how to plan, teach, manage and assess computer science teaching. Key coverage includes: · An awareness of the requirements of the 2014 National Curriculum for England · Developing computational thinking and digital literacy in your classroom · Pedagogy for teaching computer programming · Computer science in primary schools and the transition to secondary This is essential reading for secondary computer science student teachers and for those on primary initial teacher education courses seeking a greater understanding of the subject, including school-based (SCITT, School Direct, Teach First), university-based (PGCE, PGDE, BEd, BA QTS) and employment-based routes into teaching, and current teachers updating their practice. Carl Simmons and Claire Hawkins are Senior Lecturers at Edge Hill University.
This book is a collection of refereed invited papers on the history of computing in education from the 1970s to the mid-1990s presenting a social history of the introduction and early use of computers in schools. The 30 papers deal with the introduction of computer in schools in many countries around the world: Norway, South Africa, UK, Canada, Australia, USA, Finland, Chile, The Netherlands, New Zealand, Spain, Ireland, Israel and Poland. The authors are not professional historians but rather people who as teachers, students or researchers were involved in this history and they narrate their experiences from a personal perspective offering fascinating stories.
This text covers the new Programme of Study for computing, including programming and computational thinking.
Topics in Parallel and Distributed Computing provides resources and guidance for those learning PDC as well as those teaching students new to the discipline. The pervasiveness of computing devices containing multicore CPUs and GPUs, including home and office PCs, laptops, and mobile devices, is making even common users dependent on parallel processing. Certainly, it is no longer sufficient for even basic programmers to acquire only the traditional sequential programming skills. The preceding trends point to the need for imparting a broad-based skill set in PDC technology. However, the rapid changes in computing hardware platforms and devices, languages, supporting programming environments, and research advances, poses a challenge both for newcomers and seasoned computer scientists. This edited collection has been developed over the past several years in conjunction with the IEEE technical committee on parallel processing (TCPP), which held several workshops and discussions on learning parallel computing and integrating parallel concepts into courses throughout computer science curricula. - Contributed and developed by the leading minds in parallel computing research and instruction - Provides resources and guidance for those learning PDC as well as those teaching students new to the discipline - Succinctly addresses a range of parallel and distributed computing topics - Pedagogically designed to ensure understanding by experienced engineers and newcomers - Developed over the past several years in conjunction with the IEEE technical committee on parallel processing (TCPP), which held several workshops and discussions on learning parallel computing and integrating parallel concepts
This work derives from a conference discussing the history of computing in education. This conference is the first of hopefully a series of conferences that will take place within the International Federation for Information Processing (IFIP) and hence, we describe it as the First Conference on the History of Computing in Education (HCE1). These proceedings represent a collection of works presented at the HCE1 Conference held in association with the IFIP 2004 World Computer Congress held in Toulouse, France. Contributions to this volume range from a wide variety of educational perspectives and represent activities from four continents. The HCE1 conference represents a joint effort of the IFIP Working Group 9.7 on the History of Computing and the IFIP Technical Committee 3 on Education. The HCE1 Conference brings to light a broad spectrum of issues and spans fourcontinents. It illustrates topics in computing education as they occurred in the “early days” of computing whose ramifications or overtones remain with us today. Indeed, many of the early challenges remain part of our educational tapestry; most likely, many will evolve into future challenges. Therefore, this work provides additional value to the reader as it will reflect in part the future development of computing in education to stimulate new ideas and models in educational development.
This title examines suitable theoretical frameworks for conceptualizing teaching and learning computer science. The book provides numerous examples of practical, 'real world' applications of major computer science information topics, such as spreadsheets, databases, and programming.