This resource supports students to research and discuss the field of robotics and artificial intelligence (AI). The resource provides a series of student tasks that explore the topic of whether robots are a threat to humanity. This resource would work well as a research topic for students undertaking projects in...

Artificial intelligence (AI) is a disruptive technology, meaning that it is significantly changing the way that people, businesses, and industry interact. To put it in context, the invention of the wheel, electricity, TV, and GPS are all disruptive technologies that changed the way in which society worked.

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Find out how engineers who work in disaster response save lives on a massive scale. This Tomorrow’s Engineers poster and accompanying teacher booklet, activities and a lesson plan will help students to understand the scale and impact of disaster response engineering.

Many types of engineering are employed in...

A ten-lesson sequence progressing from the basics of Scratch through to creating simple games. It includes:

• drawing shapes and using repeats
• accepting keyboard input to control the movement of sprites
• planning algorithms using flow diagrams and executing them in Scratch
• ...

This unit of six lessons does not assume any prior programming knowledge and covers the following guidelines in the National Curriculum:

• Design - write and debug programs that accomplish specific goals, including controlling or simulating physical systems; solve problems by decomposing them into...

This Barefoot Computing resource builds on the ‘Maths quiz with selection’ learning activities which should be undertaken first.

It involves improving an existing Scratch maths quiz and adding score-keeping using...

This Barefoot Computing primary school resource helps children to Understand how search engines work. By acting as a ‘web crawler’ and collecting information across a small selection of web pages, they learn what in data is indexed by search engines and how this is used when a search query is received. As well as...

This interactive online self-driving challenge from Siemens can supplement robotics education in computing. It enables pupils to programme a car to drive around a circuit without a driver, the circuits getting more complex as the challenge progresses.

Self-...

In this, the final activity of a sequence of eight, children are asked to use their knowledge to create a challenge using Rapid Router, solvable using Python. It will ask their partner to use procedures, increment variables and apply different methods of control flow.

The resource includes an overview of...

This activity makes the leap from Blockly to Python programming. The 'grocery van driving challenge' is reduced from previous lessons to allow students to concentrate on syntax and correct coding using a limited set of instructions. Matching of Blockly and Python code is encouraged to assist the transition.

This activity in the Rapid Router series takes children further in their transition to text-based programming in Python.

By creating Blockly programs and comparing them to the automatically-generated Python code, children are encouraged to identify code which matches. The complexity of the problems is...

This activity follows-on from previous exercises using the Blockly editor on the Rapid Router website. It reviews what the children have learned before they proceed to using text-based programming.

The exercise looks at the most advanced ideas used with the Blockly-based phase of the Rapid Router scheme,...

This activity goes further into Python programming by expanding the range of repetition and selection commands used. Students also practice debugging of code.

Variables are explained before making use of incremented variables to solve challenges in Python.

Other programming practices, including...

This lesson activity further develops Python programming ability by introducing additional commands such as WHILE, IF, ELSE and ELIF. Debugging of programs is featured, and extension activities lead to the writing of functions that use COUNT IN RANGE() to control repetition. Students are also encouraged to mark-up...

In this Rapid Router activity, children progress from block-based programming to the textual environment of Python. In doing so they learn about the nature of text-based coding, including the need for precise syntax and how it is structured.

The progression is handled gently, with code compared in both...