This resource uses the context of the INEOS TEAM UK America's cup base in Portsmouth for students to explore the factors surrounding, using and installing solar panels on the roof of the building.  It includes the modeling required to maximise the roof area that can be used for solar panels and the data anlysis...

In this activity, students create colour images from satellite data. This allows them to study how different surfaces reflect different wavelengths of light, how coloured images are created using an RGB model, and how band combinations can be chosen to examine a particular landscape effectively.

Because of the shape of the Earth’s orbit around the Sun, it is farther away from the Sun in July than it is in January. Still, we have colder days in January than in July. How is this possible? Through this mystery, students will investigate the orbit of the Earth around the Sun and its influence on solar energy...

The premise of this activity is that the school is sending a rover to Mars. Its mission is to search for evidence that life has ever existed there. It is the job of the class to decide where the rover should land on Mars. They will do this by working in groups and investigating six potential landing sites and...

This series of activities from NASA take a mathematical approach to looking at the Earth and its atmosphere. They are intended as supplementary problems for students looking for additional challenges in mathematics and physical science from age 11 to 19 years.

The problems were created to be authentic...

This series of activities from NASA take a mathematical approach to looking at electromagnetic radiation. They are intended as supplementary problems for students looking for additional challenges in mathematics and physical science from age 11 to 19 years. The problems were created to be authentic glimpses of...

This interactive online game from Siemens sets students a series of challenges to design a roller coaster which needs to reach the end of the ride and at a safe speed. Students use problem solving and mathematical reasoning skills to change some of the track features and see how this affects the speed of the...

In this activity pupils calculate the height of a released balloon using a clinometer and trigonometry. This is one of a series of resources from the IET designed around the theme of the future of flight with the purpose of developing pupils knowledge and skills in design technology, engineering and mathematics....

This series of activities from NASA take a mathematical approach to looking at image scaling, which is an important first step that all astronomers perform when looking at image data. They are intended as supplementary problems for students looking for additional challenges in mathematics and physical science from...

This series of activities from NASA take a mathematical approach to looking at Lunar exploration. They are intended as supplementary problems for students looking for additional challenges in mathematics and physical science from age 11 to 19 years.

The problems were created to be authentic glimpses of...

This series of activities from NASA take a mathematical approach to looking at magnetism. They are intended as supplementary problems for students looking for additional challenges in mathematics and physical science from age 14 to 19 years.

The problems were created to be authentic glimpses of modern...

Measuring the diameter of our star This simple exercise allows students to measure the diameter of the Sun using a metre rule and two pieces of card. An image of the Sun needs to be projected on the card using a small hole in one piece of card.

Measuring the number of hours in a day...

This is one of a series of resources from the IET designed around the theme of the future of flight with the purpose of developing pupils knowledge and skills in design technology, engineering, science and mathematics. In this activity pupils measure noise produced by a range of activities using a sound meter to...

On December 15th 2015 European Space Agency astronaut Tim Peake launched on the six month Principia mission to the International Space Station (ISS). Principia was named after Isaac Newton’s Naturalis Principia Mathematica, describing the principal laws of motion and gravity.

The education and inspiration of...

This activity booklet uses the real life context of air traffic control using radar signals to identify the position of an aeroplane that students act out. It provides them with an opportunity to use their knowledge of waves and speed = distance / time to calibrate and calculate the distance a plane is from the...