More than 3 million students from 54 countries took part in the Bebras Challenge in 2021. Read on to find out how you can get your school involved.

What is Bebras?

Bebras a free, annual challenge that helps schools introduce computational thinking to their students. No programming is involved, and it’s completely free for schools to take part. All Bebras questions are self-marking. Schools can enter students from age 6 to 18 and know they’ll get interesting and challenging (but not too challenging) activities.

“This has been a really positive experience. Thank you. Shared results with head and Head of KS3. Really useful for me when assessing KS4 options.” – Secondary teacher, North Yorkshire

We’re making Bebras accessible by offering age-appropriate challenges for different school levels, and a challenge tailored for visually impaired students.

What is the idea behind Bebras?

We want young people to get excited about computing. Through Bebras, they will learn about computational and logical thinking by answering questions and solving puzzles.

Bebras questions are based on classic computing problems and presented in friendly, age-appropriate contexts. For example, an algorithm-based puzzle for learners aged 6 to 8 is presented in terms of a hungry tortoise find an efficient eating path across a lawn; for 16- to 18-year-olds, a difficult question based on graph theory asks students to sort out some quiz teams by linking quizzers who know each other.

Can you solve the example puzzle?

Here’s a question from the 2021 challenge for the Junior category (ages 10 to 12). You’ll find the correct answer at the bottom of this blog post. 

Science Fair

• Bebras High School is having a science fair.
• All the events in the fair need to follow a specific order, and only one event can be held at a time.
• The diagram below shows all the events that must be included in the flow of the science fair.

• The arrows between events indicate that the event the arrow is drawn from has to occur before the event the arrow points to. For example, ‘Social Interaction’ can only happen after both ‘Opening Speeches’ and ‘Project Presentations’ have finished.

Question: What is the correct order of events for the science fair?

How do I get my school involved?

The Bebras challenge for UK schools takes place from 7 to 18 November. Register at bebras.uk/admin to get full access to the challenge.

By registering, you also get access to the back catalogue of questions, from which you can build your own quizzes to use in your school at any time during the year. All the quizzes are self-marking, and you can download your students’ results for your mark book. Schools have reported using the back catalogue of questions for end-of-term activities, lesson starters, and schemes of lessons about computational thinking.

You can also see more of our free resources for Computing and Computer Science teachers, and find out about our newest research project, which you can get involved in if you teach primary Computing.

There are actually two possible answers to the example puzzle:

The post Join the UK Bebras Challenge 2022 for schools appeared first on Raspberry Pi Foundation.

We’ve asked some of our programme leads to tell you what’s new in their respective areas. We hope that you’ll come away with a good idea of the breadth and depth of teacher support that’s on offer. Is there something we aren’t doing yet that we should be? Tell us in the comments below.

Sway Grantham has been at the forefront of writing resources for our Teach Computing Curriculum over the last three years. The Curriculum is part of the wider National Centre for Computing Education (NCCE) and provides hundreds of free classroom resources for teachers, from Key Stage 1 to 4. Each resource includes lesson plans, slides, activity sheets, homework, and assessments. Since we published the Curriculum in 2020, all lessons have been reviewed and updated at least once. Managing the process of continuously improving these resources is a key part of Sway’s work.

Hi Sway, what updates have you been making to the Teach Computing Curriculum to help teachers this year? 

We make changes to the Teach Computing Curriculum all the time! However, specific things we are excited about ahead of the new school year are updates to how our content is presented on the website so that it’s really easy to see which unit you should be teaching in each half term. We’ve also renamed some of the units to make it clearer what they cover. And to help Key Stage 3 teachers launch Computing in secondary school with skills that are foundational for progress through the requirements of the Key Stage 3 curriculum, we’ve updated the first Year 7 unit, now called Clear messaging in digital media.

You recently asked for teachers’ feedback as part of an annual impact survey. What did you find out?

We are still in the process of looking through the feedback in detail, but I can share some high-level insights. 96% of teachers who responded to the survey gave a score between 7 and 10 for recommending that other teachers use the Teach Computing Curriculum. Over 80% reported that the Teach Computing Curriculum has improved their confidence, subject knowledge, and the quality of their teaching ‘a little’ or ‘a lot’. Finally, over 90% of respondents said the Curriculum is effective at supporting teachers, developing teachers’ subject knowledge, and saving teachers’ time.

We are grateful to the 907 people who took part in the survey! You have all helped us to ensure the Curriculum has a positive impact on teachers and learners throughout England and beyond.

James Robinson dedicates his work at the Foundation to creating free pedagogical resources that underpin the classroom practice of computing teachers worldwide. He has led the creation of the Pedagogy Quick Reads and the Research Bytes newsletter for the NCCE, and the development of our 12 principles of computing pedagogy, available as a handy poster. He also works on our Hello World magazine, produces the associated Hello World podcast, and curates Hello World’s special issues, such as The Big Book of Computing Pedagogy.

James, why is it so important for teachers to underpin their classroom practice with best-practice pedagogical approaches? 

In order to teach any area of the curriculum effectively, educators need to understand both the content they are teaching and the most effective ways to deliver that content. Computing is a broad discipline made up of lots of inter-connected knowledge. Different areas of the subject benefit from different approaches, and this may vary depending on the experience of the learners and the context within which they are learning. Understanding which approaches are best suited to different content helps educators support learners effectively.

Computing education research related to school-aged learners is still in its early stages compared to other subjects, and new approaches and pedagogies are being developed, tested, and evaluated. Staying aware of these developments is important for educators and that’s why it’s something the Foundation is dedicated to supporting.

What do you have in store for teachers this year?  

This year we continue to share best practice and hear from educators applying new ideas in their classroom through Hello World magazine and podcast. Educators should also keep a look out for our second Hello World special edition exploring the breadth and depth of Computing. To get hold of a copy of this later this year, make sure you’re subscribed to Hello World.

Allen Heard and his team have very recently completed a huge project: creating a full curriculum of GCSE topics and associated questions for Isaac Computer Science, our free online learning platform for teachers and students. The new topics cover the entirety of the GCSE exam board specifications for AQA, Edexcel, Eduqas, OCR, and WJEC, and are integrated with our existing A level computer science resources. They are great to pick up and use for classwork, homework, and revision.  

Allen, what has gone into the making of these new GCSE resources?

I think one of the biggest and most important things that’s been evident to me while working on this project is the care and thought that our content creators have put into each and every piece they worked on. To the end user it will simply be material on a web page, but sitting behind each page are countless discussions involving the whole team around how to present certain facts, concepts, or processes. Sometimes these discussions have even caused us to reevaluate our own thinking around how we deliver computer science content. We have debated the smallest things such as glossary terms, questioning every word to make sure we are as clear and concise as possible. Hopefully the care, expertise, and dedication of the team shines through in what really is a fantastic source of information for teachers and learners.

What do you have in store for teachers and learners this year?

With 96% of teachers and 88% of students reporting that the content is of high quality and easily accessible, we still need to continue to support them to ultimately enable learners to achieve their potential. Looking ahead, there is still lots of work to do to make sure Isaac offers the best possible user experience. And we plan to add a lot more questions to really bolster the numbers of questions at varying levels of difficulty for learners. This will have the added benefit of being useful for any teachers wanting to up-skill too! A massive strength of the platform is its questions, and we are really keen to give as wide a range of them as possible.

Tamasin Greenough Graham leads the team at Code Club, our global network of free, in-school coding clubs for young people aged 9 to 13. In Code Clubs, participants learn to code while having fun getting creative with their new skills. Clubs can be run by anyone who wants to help young people explore digital technologies — you don’t need coding experience at all. The Code Club team offers everything you need, including coding projects with easy-to-follow, step-by-step instructions, and lots of resources to help you support your club members. They are also on hand to answer your questions. 

Tamasin, what kind of support can teachers expect when they decide to set up a Code Club?

Running a Code Club really is simple and a lot of fun! We have free training to suit everyone, including webinars that guide you through getting started, a self-study online course you can take to prepare for running your Code Club, and drop-in online Q&A sessions where you can chat about your questions to our friendly team or to other educators who run clubs. 

Once you have registered your Code Club, you’ll get access to an online dashboard packed with useful resources: from guidance on preparing and delivering your first session, to certificates to celebrate your club members’ successes, and unplugged activities for learners to do away from the screen.

What experience do you need to run a Code Club?

You don’t need to have any coding experience to run a club, as we provide a giant range of fun coding projects and support materials that can be easily followed by educators and young people alike. You just need to support and encourage your young coders, and you can get in touch with the Code Club team if you need any help!

The project paths we offer provide a framework for young coders to develop their skills, whatever their starting point is. Each path starts with three Explore projects, where coders learn new coding concepts and skills. The next two Design projects in the path help them practise these skills through creating fun games, animations, or websites. The final Invent project of the path gives a design brief, and based on this learners have the space to use their new skills and their creativity to code something based on their own ideas. 

Our project paths start with the basics of Scratch, and work through to creating websites in HTML and CSS, and to text-based coding in Python. For more advanced or adventurous coders, we also offer project paths to make physical projects with Raspberry Pi Pico, create 3D models in Blender, or even build 3D worlds in Unity.

Why is it important to teach coding to primary-aged children?

Lots of primary-aged children use digital technology every day, whether that be a TV, a phone, playing video games, or a computer at school. But they don’t have to be just consumers of technology. Through learning to code, young people become able to create their own technology, and our projects are designed to help them see how these new skills allow them to express themselves and solve problems that matter to them.

What young people do with their new skills is up to them – that’s the exciting part! Computing skills open paths to a wide range of projects and work where digital skills are helpful. And while learning coding is fun and useful, it also helps learners develop a many other important skills to do with problem solving, teamwork, and creativity.

Martin O’Hanlon heads the team that produces our free online courses programme. If you’re looking for continued professional development in computer science, look no further than to our more than 35 courses. (For teachers in England, a large number of the courses count towards the NCCE’s Primary, Secondary, or GCSE certificates.) Curated in 13 curated learning pathways, all of our courses provide high-quality training that you can take at home, at a time that suits you.

Martin, what can learners expect from taking one of our online courses?

Our online computing courses are free and have something for everyone who is interested in computing. We offer pathways for learning to program in Python or Scratch, teaching computing in the classroom, getting started with physical computing, and many more. 

We vary the materials and formats used in our courses, including videos, written articles, quizzes, and discussions to help learners get the most out of the experience. You will find a lot of practical activities and opportunities to practice what you learn. There are loads of opportunities to interact with and learn from others who are doing the course at the same time as you. And educators from the Raspberry Pi Foundation join the courses during facilitation periods to give their advice, support, and encouragement.

What is the idea behind the course pathways?

We have a large catalogue of online training courses, and the pathways give learners a starting point. They group the courses into useful collections, offering a recommended path for everyone, whether that’s people who are brand-new to computing or who have identified a gap in their existing computing skills or knowledge.

Our aim is that these pathways help people find the right course at the right point in their computing journey.

Thanks, everyone.

One more thing…

We’re also very excited to work on new research projects this school year, to help deepen the computing education community’s understanding of how to teach the subject in schools. Are you a primary teacher in England who is interested in making computing culturally relevant for your pupils?

We’re currently looking for teachers to take part in our research project around primary school culturally adapted resources, running from October 2022 to July 2023. Find out more about what taking part involves.

The post Back to school 2022: Our support for teachers appeared first on Raspberry Pi Foundation.

• We’ve produced and launched 35 free online courses 
• We’ve created over 650 educational course videos 
• More than 234,000 learners have participated in the courses
• Over 19,000 teachers in England have participated through the National Centre for Computing Education

Designed and created in-house, each and every course is a real cross-team effort that involves a lot of careful planning and a number of different stages. Here we’re taking you behind the scenes to show you how we make our courses, introduce you to the people involved, and explain how we ensure our courses are of high quality.

But first, here’s some quick answers to questions you may have:

Our free online courses — key questions answered

What are the courses? 

They are online training courses to help you learn about computing and computing education. The courses are hosted on the FutureLearn website. They are asynchronous, meaning you can take them whenever and wherever you want.

Are the courses free?

Yes! All our courses are free when you sign up for time-limited access, which gives you full access to the learning materials for the complete course duration. FutureLearn also has a paid-for ‘unlimited’ option, where you receive a certificate for each course you take.

Are the courses right for me? 

They are aimed at educators, particularly classroom teachers, but they are also beneficial to anyone who wants to learn more about computing.

How long does a course take?

To help you structure your learning, our courses are divided into three or four weeks, but it’s up to you how quickly you work through them. You can complete a course in one afternoon, or spread your learning out and study for 30 minutes a day over three or four weeks. This flexibility makes it easy to fit a course into a busy schedule. 

How can I access the courses?

• Visit raspberrypi.org/courses to browse and select the course you want to sign up to.
• If you’re a teacher in England, visit the website of the National Centre for Computing Education, where our courses are part of the certificate programmes for primary and secondary teachers.

What goes into creating an engaging online course?

Creating our online courses is a team effort involving writers, videographers, illustrators, animators, copy editors, presenters, and subject matter experts working together over months of production. The entire process is guided by our online course producers, Martin O’Hanlon, Ross Exton, and Michael Conterio, who know a thing or two about creating high-quality learning experiences. We spoke to them about what it takes to create an engaging course. 

Hi guys. You’ve created courses on a wide range of computing subjects. How do you decide what the focus of your next course is going to be?

Martin: We are driven by the needs of teachers. “What are teachers telling us they want to learn? Or what are the gaps in the curriculum where our learners need additional support?”

For example, our Introduction to Machine Learning and AI course was introduced as a result of feedback from teachers that while the subject wasn’t necessarily on the curriculum, they felt underprepared to answer questions from students or provide context when teaching other topics.

How do you then go about planning it out and turning that plan into an actual course structure?

Michael: Working with the course authors, we’ll generally agree on the big topics we want to cover or questions that we want to answer. We’ll often also have individual elements that we want to fit in somewhere, for example an activity involving making a learning resource more accessible. From there it’s a case of taking the bigger topics and working out how we can split them up into smaller chunks, until we get down to individual learning activities.

Ross: But then we’ll end up shuffling things around until we are happy — not only that we’ve got everything that we wanted to cover, but that the overall structure makes sense. We often talk about the ‘narrative’ of a course.

What is your approach to pedagogy in online courses?

Martin: At the Raspberry Pi Foundation we have a set of 12 pedagogy principles that we use through our learning resources (including online courses). We take particular care to lead with concepts, model processes, and activities; add variety for our learners; and include opportunities to create projects. 

Can you tell us about some of the pitfalls with course writing that you’ve learned along the way?

Michael: Because the learner is not present, you have to be incredibly precise with instructions as you can’t help learners directly as they are working through the content. And even if you think something is obvious, it’s easy for learners to accidentally miss an instruction, so it’s generally good to try to keep them together rather than spread out.

Martin: Luckily, it is often possible to tell from comments that learners have shared when something is hard to understand so we can improve future runs of the course.

How important is the media you add to the courses, like animations and videos? What is the process for creating this type of content?

Ross: It’s essential! It brings the abstract concepts of computing to life. The media in our courses helps our learners to visualise the ideas we’re presenting in ways that are engaging and relatable. 

As we’re writing the course, we capture every creative idea that will best support our learners in gaining the knowledge and skills that they need. From ‘how-to’ guides with live coding, to physical computing demonstrations, or animations of robots, we think carefully about each image and video and how we’re not just telling the learner something, but showing them.

We then work with a brilliantly talented team of illustrators, animators, videographers, and presenters to create all of that media. 

There are lots of opportunities for social learning within the courses. Can you explain more about its importance and how we integrate it?

Ross: Social learning is a really important part of our online courses experience. Over the past year we have made significant investment to make it easier for participants to share programs they’ve written as part of their learning, for example, and for facilitators to provide support.

Martin: It is important people have the opportunity to share their learning with others. This is something often lost when taking an online course and it can feel like you are ‘on your own’. 

In the Raspberry Pi Foundation’s online courses learners are given the opportunity to ask questions, share what they have created, and provide their own insight in the comments. Educators from the Foundation facilitate the courses — responding to comments and providing advice is a big part of what they do.

Thank you Martin, Michael, and Ross. 

What new online course would you like us to create? Tell us in the comments below.

The post How do we create engaging online courses for computing educators? appeared first on Raspberry Pi Foundation.

I hope this post makes you think of a teacher or mentor who has made a key difference in your life!

Here computer science student Jonathan Alderson and our team’s Ben Garside talk to me about how Ben supported and inspired Jonathan in his computer science classroom.

Hi Jonathan! How did you get into computing?

Jonathan: My first memories of using a computer were playing 3D Pinball, Club Penguin, and old Disney games, so nothing productive there…or so I thought! I was always good at IT and Maths at school, and Computing seemed to be a cross between the two, so I thought it would be good.

Jonathan and Ben, can you remember your time working together? It’s been a while now! 

Jonathan: I met Mr Garside at the start of sixth form. Our school didn’t have a computer science course, so a few of us would walk between schools twice a week. Mr Garside really made me feel welcome in a place where I didn’t know anyone.

When learning computer science, it’s difficult to understand the importance of new concepts like recursion, classes, or linked lists when the examples are so small. Mr Garside’s teaching made me see the relevance of them and how they could fit into other projects; it’s easy to go a long time without using concepts because you don’t necessarily need them, even when it would make your life a lot easier.

Ben: It was a real pleasure to teach Jonathan. He stands out as being one of the most inquisitive students that I have taught. If something wasn’t clear to him, he’d certainly let me know and ask relevant questions so that he could fully understand. Jonathan was also constantly working on his own programming projects outside of lessons. During his A level, I remember him taking it upon himself to write a program that played chess. Each week he would demonstrate the progress he had made to the class. It was a perfect example of decomposition as he tackled the project in small sections and had a clear plan as to what he wanted to achieve. By the end of his project, not only did he have a program that played chess, but it was capable of playing against real online users including making the mouse clicks on the screen!

Moving from procedural to object-oriented programming (OOP) can be a sticking point for a lot of learners, and I remember Jonathan finding this difficult at first. I think what helped Jonathan in particular was getting him to understand that this wasn’t as new a concept as he first thought. OOP was just a different paradigm where he could still apply all of the coding structures that he was already confident in using.

That sounds like a very cool project. What other projects did you make, Jonathan? And how did Ben help you?

Jonathan: My final-year project, [a video game] called Vector Venture, ended up becoming quite a mammoth task! I didn’t really have a clue about organising large projects, what an IDE was, or you could split files apart. Mr Garside helped me spend enough time on the final report and get things finished. He was very supportive of me releasing the game and got me a chance to speak at the Python North East group, which was a great opportunity.

Ben: Vector Venture was a very ambitious project that Jonathan undertook, but I think by then he had learned a lot about how to tackle a project of that size from previous projects such as the chess program. The key to his success was that whilst he was learning, he was picking projects to undertake that he had a genuine interest in and enjoyed developing. I would also tell my A level students to pick as a project something that they will enjoy developing. Jonathan clearly enjoyed developing games, but I also had students who picked projects to develop programs that would solve problems. For example, one of my students developed a system that would take online bookings for food orders and manage table allocation for a local restaurant.

I think that point about having fun while learning something challenging like programming is really important to highlight. So what are you doing now, Jonathan?

Jonathan: I have just completed my undergraduate degree at the University of Leeds (UoL) with a place on the Dean’s List and am staying to complete a Masters in High Performance Graphics. 

During my time at UoL, I’ve had three summer placements creating medical applications and new systems for the university. This helped me understand the social benefits of computer science; it was great to work on something that is now benefitting so many people. My dissertation was on music visualisation, mapping instrument attributes of a currently playing song to control parameters inside sharers on the GPU to produce reactive visualisations. I’ve just completed an OpenGL project to create procedural underwater scenes, with realistic lighting, reflections, and fish simulations. I’m now really looking forward to completing my Game Engine project for my masters and graduating.

Teachers are often brilliant at taking something complicated and presenting it in a clearer way. Are those moments of clarity part of what motivates you to teach, Ben? 

Ben: There are lots of things that excite me about teaching computer science. Before I worked for the Raspberry Pi Foundation, there was a phrase I heard Carrie Anne Philbin say when I attended a Picademy: we are teaching young people to be digital makers, logical thinkers, and problem solvers, not just to be consumers of technology. I felt this really summed up how great it is to teach our subject. Teaching computer science means that we’re educating young people about the world around them and how technology plays its part in their lives. By doing this, we are empowering them to solve problems and to make educated choices about how they use technology.

As for my previous in-school experiences, I loved those lightbulb moments when something suddenly made sense to a student and a loud “Yesssss!” would break the silence of a quietly focused classroom. I loved teaching something that regularly sparked their imaginations; give them a single lesson on programming, and they would start to ask questions like: “Now I’ve made it do that…does this mean I could make it do this next?“. It wasn’t uncommon for students to want to do more outside of the classroom that wasn’t a homework activity. That, for me, was the ultimate win! 

How about you?

Who was the teacher who helped shape your future when you were at school? Tell us about them in the comments below.

The post Why a great teacher can make all the difference appeared first on Raspberry Pi Foundation.

The Bebras Challenge is a great way for your students to practise their computational thinking skills while solving exciting, accessible, and puzzling questions. Usually this 40-minute challenge would take place in the classroom. However, this year for the first time, your students can participate from home too!

If your students haven’t entered before, now is a great opportunity for them to get involved: they don’t need any prior knowledge. 

Do you have any students who are up for tackling the Bebras Challenge? Then register your school today!

What you need to know about the Bebras Challenge

• It’s a great whole-school activity open to students aged 6 to 18, in different age group categories.
• It’s completely free!
• The closing date for registering your school is 30 October.
• Let your students complete the challenge between 2 and 13 November 2020.
• The challenge is made of a set of short tasks, and completing it takes 40 minutes.
• The challenge tasks focus on logical thinking and do not require any prior knowledge of computer science.
• There are practice questions to help your students prepare for the challenge.
• This year, students can take part at home (please note they must still be entered through their school).
• All the marking is done for you! The results will be sent to you the week after the challenge ends, along with the answers, so that you can go through them with your students.

“Thank you for another super challenge. It’s one of the highlights of my year as a teacher. Really, really appreciate the high-quality materials, website, challenge, and communication. Thank you again!”

– A UK-based teacher

Support your students to develop their computational thinking skills with Bebras materials

Bebras is an international challenge that started in Lithuania in 2004 and has grown into an international event. The UK became involved in Bebras for the first time in 2013, and the number of participating students has increased from 21,000 in the first year to more than 260,000 last year! Internationally, nearly 3 million learners took part in 2019. 

Bebras is a great way to engage your students of all ages in problem-solving and give them a taste of what computing is all about. In the challenge results, computing principles are highlighted, so Bebras can be educational for you as a teacher too.

The annual Bebras Challenge is only one part of the equation: questions from previous years are available as a resource that you can use to create self-marking quizzes for your classes. You can use these materials throughout the year to help you to deliver the computational thinking part of your curriculum!

The post Join the UK Bebras Challenge 2020 for schools! appeared first on Raspberry Pi Foundation.

The course presenters are Pi Towers residents Mark, Janina, and Eirini

Design and Prototype Embedded Computer Systems

The first new course is Design and Prototype Embedded Computer Systems, which will start on 28 October. In this course, you will discover the product design life cycle as you design your own embedded system!

You’ll investigate how the purpose of the system affects the design of the system, from choosing its components to the final product, and you’ll find out more about the design of an algorithm. You will also explore how embedded systems are used in the world around us. Book your place today!

Programming 103: Saving and Structuring Data

What else would you expect us to call the sequel to Programming 101 and Programming 102? That’s right — we’ve made Programming 103: Saving and Structuring Data! The course will begin on 4 November, and you can reserve your place now.

Programming 103 explores how to use data across multiple runs of your program. You’ll learn how to save text and binary files, and how structuring data is necessary for programs to “understand” the data that they load. You’ll look at common types of structured files such as CSV and JSON files, as well as how you can connect to a SQL database to use it in your Python programs.

Introduction to Encryption and Cryptography

The third course, Introduction to Encryption and Cryptography, is currently in development, and therefore coming soon. In this course, you’ll learn what encryption is and how it was used in the past, and you’ll use the Caesar and Vigenère ciphers.

The Caesar cipher is a type of substitution cipher

You’ll also look at modern encryption and investigate both symmetric and asymmetric encryption schemes. The course also shows you the future of encryption, and it includes several practical encryption activities, which can be used in the classroom too.

National Centre for Computing Education

If you’re a secondary school teacher in England, note that all of the above courses count towards your Computer Science Accelerator Programme certificate.

The very first group of teachers who earned Computer Science Accelerator Programme certificates: they got to celebrate their graduation at Google HQ in London.

What’s been your favourite online course this year? Tell us about it in the comments.

The post Your new free online training courses for the autumn term appeared first on Raspberry Pi Foundation.

The project is a collaboration between the Raspberry Pi Foundation and the University of Cambridge, and is funded by the Department for Education’s National Centre for Computing Education programme.

Isaac Computer Science

Isaac Computer Science gives you access to a huge range of online learning materials for the classroom, homework, and revision — all for free.

The platform’s resources are mapped to the A level specifications in England (including the AQA and OCR exam boards). You’ll be able to set assignments for your students, have the platform mark it for you, and be confident that the content is relevant and high quality. We are confident that this will save you time in planning lessons and setting homework.

“Computer Science is a relatively small subject area and teachers across the country often work alone without the support of colleagues. Isaac Computer Science will build a teaching and learning community to support teachers at all levels and will offer invaluable support to A level students in their learning journey. As an experienced teacher, I am very excited to have the opportunity to work on this project.”
– Diane Dowling, Isaac Computer Science Learning Manager and former teacher

And that’s not all! To further support you, we are also running free student workshops and teacher CPD events at universities and schools around England. Tickets for the events are available to book through the Isaac Computer Science website.

“Isaac Computer Science helped equip me with the skills to teach A level, and ran a great workshop at one of their recent Discovery events using the micro:bit and the Kitronik :MOVE mini. This is a session that I’ll definitely be using again and again.”
 – James Spencer, Computer Science teacher at St Martin’s School

A teacher works with her students at our recent Discovery event in Cambridge.

Why sign up?

Isaac Computer Science provides:

• High-quality materials written by experienced teachers
• Resources mapped to the AQA and OCR specifications
• CPD events for teachers
• Workshops for students

Isaac Computer Science allows you to:

• Plan lessons around high-quality content pages, thus saving time
• Select and set self-marking homework questions
• Pinpoint areas to work on with your students
• Manage students’ progress in your personal markbook

Start using Isaac Computer Science today:

• Sign up at isaaccomputerscience.org
• Request a teacher account and register your students
• Start using the platform in your classroom!

The post Say hello to Isaac Computer Science appeared first on Raspberry Pi Foundation.

We also want to highlight the efforts of the amazing teachers who have spent countless hours thinking up new ways to bring their subjects to life and inspire the next generation.

Looking at the initial data from the Department for Education, it’s clear that:

• The number of students entering the Computer Science GCSE has gone up by 7.6%, so this is the sixth year running that the subject has gained popularity — great news!
• The number of girls entering the Computer Science GCSE has grown by 14.5% compared to last year!
• The proportion of Computer Science GCSE students achieving top grades (9 to 7) has gone up, and there’s been an even bigger increase in the proportion achieving a good pass (9 to 4) — amazing!

Views from teachers

From L to R: Rebecca Franks, Allen Heard, Ben Garside, Carrie Anne Philbin

I caught up with four former teachers on our team to reflect on these findings and their own experiences of results days…

What thoughts and emotions are going through your head as a teacher on results day?

Ben: It’s certainly a nerve-wracking time! You hope that your students have reached the potential that you know that they are capable of. You log onto the computer the second you wake up to see if you’ve got access to the exam boards results page yet. It was always great being there to see their faces, to give them a high five, and to support them with working out their options going forward.

Rebecca: I think that head teachers want you to be worried about targets and whether you’ve met them, but as a teacher, when you look at each individual students’ results, you see their journey, and you know how much effort they’ve put in. You are just really proud of how well they have done, and it’s lovely to have those post-results conversations and celebrate with them. It makes it all worth it.

Allen: I liken the feeling to that of an expectant father! You have done as much as you can to make sure things run smoothly, you’ve tried to keep all those involved calm, and now the moment is here and you just want everything to be OK.

Carrie Anne: As a teacher, I always felt both nerves and excitement for results day, probably more so than my students did. Sleepless nights in the run-up to the big day were common! But I always enjoyed seeing my students, who I’d worked with since they were youngsters, see the culmination of their hard work into something useful. I always felt proud of them for how far they’d come.

There has been an increased uptake of students taking computing-related subjects at GCSE since last year. What do you think about this?

Ben: It’s great news and shows that schools are realising how important the subject is to prepare our young people for the future workplace.

Carrie Anne: It’s a sign that our message — that all students should have access to a Computing qualification of rigour, and that there is a willing and ready audience hungry for the opportunity to study Computing at a deeper level — is making traction. My hope is to see this number increase as teachers take part in the free National Centre for Computing Education professional development and certification over the coming years.

Rebecca: I think it’s a step in the right direction, but we definitely have a long way to go. We must make sure that computing is at the forefront of any curriculum model in our secondary schools, which is why the National Centre for Computing Education is so important. In particular, we must support schools in ensuring that KS3 computing is given the time it needs to give students the grounding for GCSE.

Allen: I agree with Rebecca: more needs to be done about teacher training and helping schools see the overall benefit to students in undertaking such subjects. Schools that are investing time in nurturing these subjects in their curriculum provision are seeing them become more popular and enjoying success. Patience is the key for senior leadership teams, and teachers need support and to have confidence in their ability to continue to deliver the subject.

Why is it important that more students learn about computing?

Rebecca: Computing feeds into so much of our everyday lives, and we must prepare our young people for a world that doesn’t exist yet. Computing teaches you logical thinking and problem-solving. These skills are transferable and can be used in all sorts of situations. Computing also teaches you essential digital literacy skills that can help you keep safe whilst using online tools.

Ben: For me, it’s really important that young people pick this subject to help them understand the world around them. They’ll hopefully then be able to see the potential of computing as a power for good and harness it, rather than becoming passive consumers of technology.

Carrie Anne: Following on from what Ben said, I also think it’s important that technology developed in the future reflects the people and industries using it. The tech industry needs to become more diverse in its workforce, and non-technical fields will begin to use more technology in the coming years. If we equip young people with a grounding in computing, they will be equipped to enter these fields and find solutions to technical solutions without relying on a small technical elite.

Imagine I’m a GCSE student who has just passed my Computer Science exams. What resources should I look at if I want to learn more about computing with the Raspberry Pi Foundation for free?

Rebecca: Isaac Computer Science would be the best place to start, because it supports students through their A level Computer Science. If you wanted to experiment and try some physical computing, then you could take a look at the Projects page of the Raspberry Pi Foundation website. You can filter this page by ‘Software type: Python’ and find some ideas to keep you occupied!

Allen: First and foremost, I would advise you to keep your hard-earned coding skills on point, as moving on to the next level of complexity can be a shock. Now is the time to start building on your already sound knowledge and get prepared for A level Computer Science in September. Isaac Computer Science would be a great place to start to undertake some further learning over the summer and prime yourself for further study.

Ben: Same as Rebecca and Allen, I’d be telling you to get started with Isaac Computer Science too. The resources that are being provided for free are second to none, and will really help you get a good feel for what A level Computer Science is all about.

Carrie Anne: Beyond the Raspberry Pi projects site and Isaac Computer Science, I’d recommend getting some face-to-face experience. Every year the Python community holds a conference that’s open to everyone. It’s a great opportunity to meet new people and learn new skills. PyConUK 2019 is taking place in September and has bursaries to support people in full-time education to attend.

We’ve been working on providing support for secondary and GCSE teachers as part of the National Centre for Computing Education this year. Could you talk about the support we’ve got available?

Allen: We’re producing resources to cover the whole range of topics that appear in all the Computing/Computer Science specifications. The aim of these resources is to provide teachers — both experienced and new to the subject — with the support they need to deliver quality, engaging lessons. Founded on sound pedagogical principles and created by a number of well-established teachers, these resources will help reduce workload and increase productivity for teachers, and increase engagement of students. This will ultimately result in some fantastic out-turns for schools, as well as developing confident computing teachers along the way.

Rebecca: As Allen explained, we are busy creating new, free teaching resources for KS3 and GCSE. The units will cover the national curriculum and beyond, and the lessons will be fully resourced. They will be accessible to teachers with varying levels of experience, and there will be lots of support along the way through online courses and face-to-face training if teachers want to know more. Teachers can already take our ‘CS Accelerator’ programme, which is extremely popular and has excellent reviews.

Thanks for your time, everyone!

How was your GCSE results day? Are your students, or young people you know, receiving their results today? Tell us about it in the comments below.

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Pump up your programming skills for free

Today we are excited to announce our new online training course Programming with GUIs — now open for sign-ups on FutureLearn. To celebrate, we’ve also curated a set of courses as your personal Back-to-school Bootcamp. Sign up now to start training from Monday 29 July and throughout August!

Your Back-to-school Bootcamp has something for beginner, intermediate, and advanced learners, and all the courses are free, thanks to support from Google.

Also keep in mind that all the courses count towards becoming certified through the National Centre for Computing Education.

Couch to 5k…lines of code

If you’re just beginning to learn about coding, the perfect place to start is Programming 101: An Introduction to Python for Educators. You’ll first get to grips with basic programming concepts by learning about the basics of Python syntax and how to interpret error messages. Then you’ll use your new coding skills to create a chatbot that asks and answers questions!

For Primary teachers, our course Scratch to Python: Moving from Block- to Text-based Programming is ideal. Take this course if you’ve been using Scratch and are wondering how to introduce Python to your older students.

If you’ve been programming for a while, sign up for our brand-new course Programming with GUIs — an intermediate-level course that shows you how to build your own graphical user interface (GUI) in Python. You will learn how to incorporate interactivity in your programs, discover different types of GUI features, and build your confidence to design more complex GUI-based apps in the future.

Or maybe you’d like to try Programming 101’s follow-on course Programming 102: Think Like a Computer Scientist? Take your Python skills further by learning to break down problems into smaller tasks and designing algorithms you can apply to data.

Finally, if you’re an experienced computing educator, dig into Object-oriented Programming in Python, a really fun and challenging course that helps you get to grips with OOP principles by creating a text-based adventure game in Python.

Sign-ups are open until the end of August. Now go get those gains!

Tell us about your workout routine

What will your personal coding regime look like this summer? What online courses have you enjoyed taking this year? (They don’t have to be ours!) Tell us in the comments below.

https://i.giphy.com/media/3oKIPa9U1XH6FRxP4k/giphy.webp

The post Your Back-to-School Bootcamp with our free online training appeared first on Raspberry Pi Foundation.

I caught up with course developers Marc, Caitlyn, James, and Martin to find out what they have in store for you.

Dan Fisher: Hi everyone! First off, can you give me a rundown of what your courses are called and what your motivation was for creating them?

Martin O’Hanlon: Sure! So my course is called Programming 101: An Introduction to Python for Educators. We wanted to create an ‘introduction to programming’ course that anyone could follow, ensuring that learners get to understand concepts as well as practice coding. They will leave with a really good understanding of why programming is so useful, and of how it works.

James Robinson: Then, as a follow-up to this and many other beginner online programming courses, we will be releasing Programming 102: Think Like A Computer Scientist. A lot of courses spend time on the syntax and core elements of a language, without much focus on how to plan and construct a program. We feel the skills involved in understanding and breaking down a problem, before representing it in code, are fundamental to computer science. My course is therefore designed to give you the opportunity to explore these problem-solving skills while extending your knowledge of programming.

Marc Scott: My How Computers Work: Demystifying Computation course fills in the gaps in people’s knowledge about these amazing lumps of silicon and plastic. Computers are very abstract machines. Most people understand that computers can run large, complicated programs, but few people understand how computers are able to perform even the simplest of operations like counting or adding two numbers together. How Computers Work shows people how computers use simple components such as transistors to do incredible things.

Caitlyn Merry: My course is called Bringing Data to Life: Data Representation with Digital Media. Data representation is a huge part of the GCSE Computer Science curriculum, and we wanted to present some of the more theoretical parts of the subject in a fun, practical, and engaging way. And data is everywhere — it is such an important topic nowadays, with real-world impact, so we’re making sure the course is also useful for anyone else who wants to learn about data through the lens of creative media.

DF: Awesome! So who are the courses for?

MOH: Programming 101 is for anyone who wants to learn how to program in Python and gain an understanding for the concepts of computer programming.

JR: Programming 102 is for beginners who have already tackled some programming basics and have some experience in writing text-based programs.

CM: Bringing Data to Life is great if you want to understand how computers turn data into digital media: text, sound, video, and images — for example, photos on your smartphone.

MS: And How Computers Work is for anyone who is interested in learning how computers work. [laughter from the group]

DF: Short and to the point as ever, Marc.

MS: Okay, if you want a sensible answer, it would most help Computer Science teachers at secondary or high school level get to grips with the fundamentals and architecture.

DF: And what will they be doing in your courses, in practical terms?

MOH: Programming 101 will show you how to set up your computer for Python programming and then how to create Python programs! You’ll learn about the basic programming concepts of sequencing, selection, and repetition, and about how to use variables, input, output, ifs, lists, loops, functions, and more.

JR: Programming 102 discusses the importance of algorithms and their applications, and shows you how to plan and implement your own algorithms and reflect on their efficiency. Throughout the course, you’ll be using functions to structure your code and make your algorithms more versatile.

MS: In How Computers Work, learners will find out some of the historical origins of computers and programming, how computers work with ones and zeros, how logic gates can be used to perform calculations, and about the basic internals of the CPU, the central processing unit.

CM: In my Bringing Data to Life course, you’ll learn how text, images, and sound data is represented and stored by computers, but you’ll also be doing your own media computation: creating your own code and programs to manipulate existing text, images, and data!

DF: Cool! So what will learners end up taking away from your courses?

MOH: When you have completed the Programming 101 course, you’ll be able to create your own computer programs using Python, educate others in the fundamental concepts of computer programming, and take your learning further to understand more advanced concepts.

JR: After Programming 102, you’ll be able to plan and create structured and versatile programs and make use of more programming concepts including functions and dictionaries.

MS: From my course, you’ll get a solid grounding in how computers actually function, and an appreciation for the underlying simplicity behind complex computing architectures and programs.

At their core, computers works with simple components, e.g. relays like this.

CM: The take-away from mine will be an understanding of how computers present to you all the media you view on your phone, screens, etc., and you’ll gain some new skills to manipulate and change what you see and hear through computers.

DF: And how much would learners need to know before they start?

MOH: Programming 101 is suitable for complete beginners with no prior knowledge.

MS: The same goes for How Computers Work.

JR: For Programming 102, you’ll need to have already tackled some programming basics and have a little experience of writing text-based programs, but generally speaking, the courses are for beginner-level learners who are looking for a place to start.

CM: You’d just need a basic understanding of Python for Bringing Data to Life. Taking Programming 101 would be enough!

DF: That’s great, folks! Thanks for talking to me.

These courses are supported by our friends at Google as part of their continued investment in training for secondary Computer Science teachers in the UK. The courses are designed to give practising educators a solid grounding in the concepts and practical applications of computing. Best of all, they are free, for everyone.

Programming 101 and How Computers Work will both begin running in October. Sign up for them today by visiting the Raspberry Pi Foundation page on FutureLearn.

Programming 102 and Bringing Data to Life will launch this winter. Sign up for our education newsletter Raspberry Pi LEARN to hear from us when they’re out.

Got a question you’d like to ask our online course developers? Post your comment below!

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