This engineering resource, produced by Mathematics in Education and Industry (MEI) for the Royal Academy of Engineering, asks the question: how can a camera, mounted on a helicopter, be used to track the location of a ground-based object? A number of discussion ideas are considered before using 2D and 3D...

These activities have been developed for the National HE STEM Programme to be used in conjunction with the video resources found in this collection.

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Science and engineering represent great opportunities for magic. This book contains some amazing and easy-to-do magic tricks based on secret chemistry, physics, engineering and mathematics. The description of each trick explains the effect, how it works and hints and tips for performing the illusion. The illusions...

Opportunities for engineers exist at all levels and these career route maps from Neon show various routes through education and training to become a professional engineer in England, Northern Ireland, Scotland and Wales.

A guide to 12 different engineering disciplines showing different pathways into engineering, to support students with their career decision-making.

Engineering is a diverse, wide-reaching sector and it can be hard to decide which of the many areas to pursue. In this booklet you will find an overview of...

This engineering resource, produced by Mathematics in Education and Industry (MEI) for the Royal Academy of Engineering, asks the question: how can you calculate the energy used, or made available, when the volume of a gas is changed? A bicycle pump, a refrigerator and the internal combustion engine change the...

There is a high demand for engineers in the UK and engineering is one of the most in demand jobs globally. From apprentices to technicians; graduates to postgraduates, engineers are needed at all levels, in a wide range of sectors.

This leaflet provides guidance for teachers, with key points about...

This engineering resource, produced by Mathematic in Education and Industry (MEI) for the Royal Academy of Engineering, asks the question: how can you predict future power requirements? Students are required to complete a table by substituting values into a formula and plot a graph. The activity offers good...

Protecting Your Head, from the Centre for Science Education, is a set of teaching materials which offer a cross-curricular approach to learning about engineering. The context for the activities is the design of head protection for snowboarders where the risk of injury...

From the LSIS, these materials cover two sessions designed to take students through the basic principles of manipulating and solving equations. The learners work through building an equation, checking the equation and solving the equation. They are then asked to create their own equation and swap it with a partner...

This engineering resource, produced by Mathematics in Education and Industry (MEI) for the Royal Academy of Engineering, asks the question: how can production outcome data from a manufacturing process be analysed to optimise the process? Students consider the outputs of resistors to see the outcomes form a normal...

Produced by Rolls-Royce, the associated resources in this toolkit help students to make the connection between STEM subjects studied in school or college and possible future career opportunities. The materials illustrate the really exciting opportunities which open up to them through studying STEM subjects. The...

Provided by the British Science Association, with support from Intel Education, these resources provide an insight into a range of activities involved in organising and taking part in STEM fairs. They include contributions from a teacher taking part in STEM competitions...

These materials are provided by the British Science Association and supported by Intel. They aim to give an overview of the types of activities that happen at STEM fairs. The guide is useful in preparing students when visiting a fair. It also covers some of the key...