A lesson from the Science and Technology Facilities Council (STFC)'s Seeing Science. Students investigate sulphur dioxide, its sources and its impact on the environment and on life. In the main activity, students create a animated presentation to tell the story of sulphur dioxide. Images and graphics for each act...

Combing satellite and ground-based imagery, this cross-curricular learning resource for primary teachers explores planet Earth from a range of perspectives.

The activities are intended to build map skills and recognition of many physical geography features in familiar and unfamiliar locations. Mathematics...

This activity is designed as a ‘virtual mission’. Students will play the part of Near Earth Asteroid (NEA) scientists to the scenario of a possible asteroid impact with the Earth. By following the story of the mission (led by an automated powerpoint), students will apply their understanding of kinetic energy,...

These diagnostic questions and response activities (contained in the zip file) support students in being able to:

• Describe constellations of stars in the night sky.
• Describe the planets that can be seen with a telescope.
• Describe evidence that shows the Earth is shaped as a sphere and...

This resource from Physicists in Primary Schools (PIPS) supports the teaching of Earth and Space at Key Stage Two. A presentation introduces Earth and the planets of our solar system, with an activity in which children help demonstrate the relative sizes of planets and the distances between them. It moves on to...

In this activity, pupils will consider some properties of different rocks. They will also learn about classifying, or sorting things into groups to help them identify which rock is which. They can then take a closer look at the meteorites, tektite and ammonite in their sample boxes. There are two versions of the...

These diagnostic questions and response activities (contained in the zip file) support students in being able to:

• Describe how the seasons change through a year.
• Describe the movement of the Earth through a year.
• Describe evidence that shows the Earth moves in a circular orbit...

This diagnostic question is part of a series adapted for primary aged pupils from the Best Evidence Science Teaching project for ages 11 to 14.

It helps students to understand that...

This activity shows how Earth observation can be used to study human geography by comparing the satellite images of Las Vegas over the last few decades. Linking to measurement of irregular areas and addition and multiplication of fractions, it asks children to measure the area of Las Vegas at three separate times...

This activity uses satellite images of the Earth to show how a glacier has changed over almost three decades. Children are asked to measure the glacier to find out how much it has changed in size and to compare false-colour images to suggest how this helps us find out more about environmental change. Guidance on...

In this activity children take on the role of Earth observation scientists submitting a request for an image they would like for their research. This gives them the opportunity to consider the possibilities of pictures taken from orbit (and the limitations) and to write scientifically for a specific audience. It...

In this lesson, students will learn about solar system orbits and how asteroids can become dislodged and sent on a collision course with the Earth. They will then conduct an investigation into the relationship between impact speed and crater size in the context of Moon impacts. This activity is differentiated for...

This activity looks at climate change and its effects on succession in a location in Norfolk over 12000 years ago.

Students carry out a simulation of a bog core analysis, based on work by the University Corporation for Atmospheric Research together with data from the Department of Geography, University of...

This short activity introduces students to the ideas of the footprint and resolution of an image, asking them to choose and use appropriate methods to calculate how these quantities would change as they moved a camera to a series of vantage points above the surface of the Earth

In this activity students take on the role of Earth observation scientists submitting a request for an image they would like for their research. This gives them the opportunity to consider the possibilities of pictures taken from orbit (and the limitations) and to write scientifically for a specific audience. It...