A Year 10 module from the Salters’ double award science course. Restless Earth was designed as a short module of four to six lessons. The module begins with stories about earthquakes. This is followed by practical work with rock puzzles to see how information is...

These three activities, from Centre of the Cell, introduce the idea that there are certain factors, called risk factors, which can increase a person’s likelihood of developing a disease. Students learn how scientists use research to determine what the risk factors are for various diseases.

Using data...

Together with related activities from the Institution of Engineering and Technology (IET), this resource allows students to investigate the wide range of sophisticated imaging technology available in modern hospitals, and to explore the latest ideas in search-and-rescue...

NASA’s Mars exploration rovers Spirit and Opportunity were sent to the planet to investigate its geology. Accurate images of the surface were needed so that possible areas to investigate could be selected and then the rover directed towards them. The cameras on board the rovers can only record black and white...

From NASA, these activities look at the scientific, technological, engineering and mathematical foundations of rocketry to provide exciting classroom opportunities for authentic hands-on experimentation. Rockets have formed the basis of space exploration.

Extensive teachers' notes, guidance and lesson plans...

This resource, from the Association for Science Education (ASE) introduces students to the science and technology of rocket flight.Liftoff! has been developed by the Department of Physics at the University of Surrey, with the support of PPARC and is designed primarily for students aged 11-13. It is an exciting...

This booklet is part of the ‘Innovations in Practical Work’ series published by the Gatsby Science Enhancement Programme (SEP). Studying rockets captures the imagination of many students, as well as providing real-life applications of Newton’s laws of motion.

The booklet looks at the differences between...

In this activity, students are challenged to put on a show – either a live stage show or a recorded television show – to give a theatrical Earth science demonstration. Several demostrations are suggested for students to master: Growing crystals 1. Crystals from melts 2. Crystals from vapour 3. Crystals from...

This activity, from the Institution of Engineering and Technology (IET), introduces students to a mathematical solution to code breaking using a simple substitution code. Students make a survey using the frequency of letters in English sentences, match up an encoded...

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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The STFC Lunar Rocks and Meteorites Loan Scheme has been running since the mid 1980s. It has lent the NASA Moon rock discs and meteorites to thousands of schools, museums and outreach organisers. The collection has been produced by the ASE with the University of...

This resource was produced by the Association of the British Pharmaceutical Industry (ABPI) as part of their 'At Work With Science' materials. In this interactive resource, students are introduced to the legal aspects of the Health and Safety regulations; the concept of risk assessments and how to develop them....

A number of applied school science courses recommend that students should make a site visit to some aspect of the chemical industry. Such visits are often difficult to organise and some areas are almost impossible to get access to.

To partly address the needs of applied science courses and some A-level...

Professor Saiful Islam is a chemist who never wears a white lab coat. Rather than conduct experiments in laboratories, he uses the world's most powerful computers to produce computer models of the inner, 'atomic' structure of materials used in 'green' energy applications, from the lithium ion rechargeable batteries...

Sanjeev Gupta is a geologist who uses his understanding of rocks and physical processes such as plate tectonics, mountain building, deposition of sediment and erosion by water to understand how particular landscapes were formed from remote deserts, under the sea in the English Channel and on Mars!

He came to...