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Susan Sentance is a British computer scientist, educator and director of the Raspberry Pi Foundation Computing Education Research Centre at the University of Cambridge. [4] [5] [1] [6] [7] Her research investigates a wide range of issues computer science education, teacher education and the professional development of those teaching computing.
The 2022 report sought an understanding of teachers’ perceptions of how to move towards a vision of equitable CS. This report drew on a national sample of PreK-12 CS teachers to examine their views of both their professional development needs and institutional changes required to transform CS classrooms to be more identity-inclusive. [14]
Raspberry Pi, a bare-bones, low-cost credit-card sized computer created by volunteers mostly drawn from academia and the UK tech industry, is released to help teach children to code. [9] [10] September 11 Intel demonstrates its Next Unit of Computing, a motherboard measuring only 4 × 4 in (10 × 10 cm). [11] October 4
The National Centre for Computing Education provides professional development in computing education for primary and secondary schools and colleges, including face-to-face courses around England, and remote and online courses. It provides a repository of teaching resources for computing through its website, teachcomputing.org.
Due to this, computing education suffered in many areas with little to no funding left over to adequately teach the subject. [36] This is the main reason why computing education is either extremely lackluster or non-existent in many schools across the United States and UK.
Hackaball was created by two London-based design companies: Made by Many and the Barber Osgerby spin-off Map Project Office. [6] It was conceptualised in 2013 by two interns at Made by Many—Ben King and Thomas Nadin—when they were given a side project to investigate the intersection of the Internet of Things with play. [7]
The Singularity Is Near – book by Raymond Kurzweil dealing with the progression and projections of development of computer capabilities, including beyond human levels of performance; TOP500 – list of the 500 most powerful (non-distributed) computer systems in the world
Networks of such miniature tissues could become functional using stimulus-response training or organoid-computer interfaces – to potentially become "more powerful than silicon-based computing" for a range of tasks – and could also be used for research of various pathophysiologies, brain development, human learning, memory and intelligence ...