Coding Drones

Aiming High in Computing

Drone Lesson Plans

Aim High in Primary Computing

Using drones in schools has the potential to take learning, literally, to a higher level.  As they continue to become increasingly practical, attainable, tools for education, teachers around the world are now using drones in their classrooms for STEM and STEAM activities.

In computing, programming drones helps develop children’s skills in algorithms, programming and computational thinking as well as addressing the ‘controlling physical systems’ objectives of the National Curriculum for Computing at Key Stage 2.  Exciting curricula and drone lesson plans are being developed that help teachers develop confidence and make the most out of connected devices.

Drones are revolutionising business and industry:  engineers use the technology for site surveys, filmmakers capture images that would otherwise be unseen, drones are used in agriculture; farming; conservation; military operations and parcel deliveries.  The potential for the application of drones and the rapid growth in the technology is huge.  Understanding how they work, their potential and how to control them through coding prepares children for the modern working world.

iCompute lead the way in teaching and learning using educational technology.  In anticipation of 3D robotics becoming the next big thing in education, we have extended our connected devices offering of comprehensive, step-by-step lesson plans, computing resources and assessment toolkits using Sphero and LEGO™ WeDo by adding an amazing, creative, 6-8 week coding with drones unit aimed at upper KS2 Computing (pupils aged 9-11 or higher).

Children learn how to program parrot drones to fly, create aerial shapes, navigate obstacles, fire ‘missiles’, pick up and drop objects all set in imaginative contexts.  They program Santa’s ‘sleigh’  to deliver presents before going on an epic journey to a Galaxy Far, Far Away to take out the Death Star for the Rebel Alliance!

Drone Lesson Plans

The Force is Strong with This One…Visit our website to unleash your power!

 

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Teach Computing: Learn Computing

Your Pupils need YOU not just a Tutorial!


teaching computing not tutorialsComputing has been statutory for pupils from the age of five since 2014 and many schools have risen to the challenge and are teaching some excellent computing.  We’ve seen the emergence of some amazing pedagogies, tools and technologies.  Many companies, myself included with iCompute, have produced a plethora of resources to help schools teach computing creatively and well.  There are dozens of great software and apps that support teaching and learning – see my Periodic Table of Computing Resources for an idea of what’s out there.

I advocate the use of some coding apps; however I’m becoming increasingly concerned as I’ve noticed a worrying trend in primary schools for ‘teaching’ computing primarily through the use of software and services that are tutorial driven. I’m talking about the kind of app, software or service where children work independently through challenges or levels with on-screen prompts.  I spoke to one teacher recently who went from Scratch Jr (aimed at KS1) straight on to Swift Playgrounds (aimed at Year 7, but my able UKS2’s use it) without anything between because they were the only apps she could find that didn’t need her input!  Aside from the fact that there are apps that could fill that gap, it doesn’t mean they should.

There is, of course, a place for these kinds of activities in computing lessons – I produce some myself – but I fear that many teachers are adopting this as their only teaching approach and that’s bad.  Why?  Because they focus on one aspect of the curriculum only and teachers are using it due to a lack of confidence and subject knowledge, not because they’re enabling true self-directed learning.

In Roger Hiemstra’s (Bull, 2013) essay about self-directed learning, he proposes six roles for the teacher attempting to adopt self-directed learning approaches:

  • content resource
  • resource locator
  • interest stimulator
  • positive attitude generator
  • creativity and critical thinking stimulator
  • evaluation stimulator

Using mainly tutorial driven tools for computing lessons means the role of the teacher is often reduced to little more than a resource locator. A teacher’s pedagogical subject knowledge is about having a range of teaching approaches and strategies that enable them to transfer specific subject knowledge to their pupils, which includes knowledge of how to make that understandable.  In other words, they still need subject knowledge.  Often I’ve heard members of grass-roots organisations, who aim to encourage and support schools in computing, suggest to inexperienced teachers that it’s absolutely fine to ‘let the children get on with it’.  It’s not.  As with any subject we are paid to teach, we teachers need to acquire subject knowledge and, especially in the case of computing, keep it up to date.  Then teach it, properly, using a range of approaches and strategies.

Teacher apathy and lack of confidence is a problem in primary computing that we need to start seriously addressing.  It’s not okay to opt out or only cover aspects of it.  As I’ve said before, opting out of teaching computing is like not bothering much with Maths because you find it hard.  Just because some teachers do not find embracing technology an important part of their everyday lives and/or find it challenging does not mean that it can be ignored.  It’s vital for the children they are legally obliged to educate.

Of course I fully understand that many primary teachers feel as if they have been dropped in it, with little in the way of training on offer.  I run regular CPD in my voluntary role as a Primary Computer Science Master Teacher.  Time and time again, I’m training the same passionate, enthusiastic, teachers who are (crucially) released by their schools to attend sessions.  I specifically developed iCompute for inexperienced teachers – to teach the teacher as well as pupils – well in advance of the introduction of the National Curriculum in 2014, as I anticipated that this was going to be a huge leap for most and I’m passionate about my subject being taught with enthusiasm, creatively and well.

We need a shift in attitudes about teaching primary computing.  It is fundamental to the lives of our children and we owe it to them to prepare them to understand and be able to fully participate in the modern digital world.  Instead of searching for apps or subscribing to services that provide tutorial based lessons, we need to encourage teachers to focus on improving their subject knowledge and push for training.  Only then will they have the ability to know whether those apps and services offer any value in terms of learning and progression.  They will be opting in, not out.

Bibliography:

Charlotte Dignath-van Ewijk and Greetje van der Werf, “What Teachers Think about Self-Regulated Learning: Investigating Teacher Beliefs and Teacher Behavior of Enhancing Students’ Self-Regulation,” Education Research International, vol. 2012, Article ID 741713, 10 pages, 2012. doi:10.1155/2012/741713

Bull, Bernard, “What Is The Role Of A Teacher In A Self-Directed Learning Environment? – Etale – Ideas That Matter”. Etale – Ideas that Matter. N.p., 2017. Web. 4 Apr. 2017.

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Easter Computing Activity

For Key Stage 1

Everyone likes putting a seasonal twist on lessons during the approach to Easter and I’ve been making Easter computing lessons for my pupils to add to iCompute‘s computing scheme of work

This time, I’ve put together a step-by-step computing lesson plan and teacher resources for Key Stage 1 pupils.  You can download the free Easter computing lesson and resources and use them your own classrooms for a little seasonal fun!

A spin on the Bee Bot app, this uses Scratch 2.0 and ‘BunnyBot’.  The children create algorithms and program the Easter Bunny to collect Eggs.

Easter Computing Lesson

BunnyBot

Easter computing lesson plan

Click to download lesson & resources

The lesson plan contains lots of ideas for differentiation, extension and enrichment

  • predicting algorithms
  • identifying and using repetition in programs
  • programming against the clock
  • comparing and improving algorithms and programs
  • designing own game

Check out my other Easter computing resources for Key Stage 2 pupils.

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