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Produced for Future Morph, these resources contain a video in which a student talks about her apprenticeship course in electrical installation at Exeter college. She describes the entry qualifications needed for her course, contrasts her experiences at college compared to school and briefly mentions health and...

Produced for Future Morph, this resource contains a video in which an apprentice plumber talks about his work in a renewable energy company installing solar water panels. The theory and practicals he learns in college is applied in the workplace. A second activity looks at a demonstration that illustrates the...

Produced for Future Morph, this video sees an apprentice in service engineering talk about his work. Service engineers are mechanical engineers who work on equipment such as engines and gearboxes. The student describes how his attendance at college fits with his job in an engineering business and allows him to...

In this activity developed by the Institute of Physics, students model the motion of a planet around a star and investigate how day and night and seasons may be different on other planets. Working in pairs or small groups, students demonstrate night and day and seasons to each other. They can then go on to model...

In this activity developed by the Institute of Physics, students use simple diffraction gratings to observe the spectra from different sources, and deduce how scientists can work out which chemicals are present in an exoplanet’s atmosphere. When an exoplanet passes in front of its star, some of the starlight is...

These Fun-Size materials, from the Association for Science Education (ASE) are short 5-15 minute activities that enliven lessons. These are part of the SYCD AKA Science collection. They range from short games and word plays through to quick demonstrations. Fun-size is particularly useful when you are working...

Mobile app development is an engaging way for students to learn programming and interface design as many do, indeed, "love their smartphone".

This complete learning package teachers the origins and development of the smartphone, helping them to appreciate the amount of technology packed into their pocket. It...

Designed for students who have advanced through Scratch and are ready for additional challenge, this resource explores Build Your Own Blocks (BYOB) as a tool for learning modular programming using procedures. 

After examining, briefly, the history of the computer and the Turing Test as a measure of their...

From the Science Museum, this resource contains a booklet of science activities using everyday ingredients, with notes for teachers. The booklet contains step-by-step instructions for science activities and experiments that are safe and easy to do in the classroom or at home. The individual activities allow...

In this activity developed by the Institute of Physics, students use iron and sand to model the composition of the Earth and estimate what fraction of the Earth is occupied by its iron core. After completing this activity, students should be able to: *Measure mass and volume. *Calculate density from mass and volume...

Scratch is widely used in primary schools to teach children basic programming. This resource goes deeper, making use of the familiar Scratch environment to take students deeper into programming concepts such as:

  • Algorithm design
  • Parallel and sequential instructions
  • Event-driven...

This set of demonstrations into the effects of tropisms on seedlings is both simple and extendable. Seeds sown on damp cotton wool in Petri dishes are grown either flat, or stuck vertically to a wall, showing the different effects of gravitropism. After a week, students...

In this activity developed by the Institute of Physics, students investigate how temperature changes with distance from a heat source and relate this to planetary temperatures. After completing this activity, students should be able to:

*Understand that the temperature of a planet depends on its distance...

In this activity, developed by the Institute of Physics, students use a lamp and polystyrene balls to model how astronomers detect exoplanets using the transit method. After completing this activity, students should: *Understand that the transit of a planet in front of its star temporarily reduces the star’s...

In this demonstration of a displacement reaction, a piece of foil in the shape of a Christmas tree is placed in lead nitrate solution. Within a few minutes the tree becomes covered with sparkling crystals of lead.