Produced by Gatsby Science Enhancement Programme, this activity develops the skills needed to prepare and deliver a formal presentation. During the activity, students will: • select an appropriate topic for a presentation to the class • carry out the necessary research to collect the information needed • develop a...

Produced by Gatsby Science Enhancement Programme, this activity sees students delivering a presentation that they have prepared. This practices the delivery of presentations but also forms part of a guided evaluation exercise. The activity provides opportunities for students to: • deliver a presentation and...

This activity, produced by Gatsby Science Enhancement Programme, gives students the opportunity to look at some genuine research posters and to identify the components and layout employed. Students then create their own poster on an A-level topic. The activity will help to improve students' ability to summarise...

The task is to consider the process of making estimates to use in calculations before moving to the specific task of estimating the total surface area (i.e. skin area) of a volunteer. This is a readily accessible task, with students only needing basic measurement and...

In this resource from the SATIS Revisited collection, students learn about skin cancer and analyse data on the incidence of melanoma. They also learn about use of ultraviolet radiation index forecasts to assess risk.

Skin cancers are extremely common, with more than 75 000 new cases registered each year in...

In this resource scalene triangles are drawn on a square grid. The challenge is to find the area of the triangle.

On each student worksheet there is a different triangle, but the solutions all have something in common.

One way to find the area is to enclose the triangle in a right-angled triangle, and...

In celebration of its founder, Fritz Schumacher’s centenary year Practical Action have created Small Is...Challenge. Schumacher’s philosophy was based on the idea that even a small change can have a big impact on people’s lives. The challenge for students is to look at technologies from the last 100 years and...

Produced by The Centre for Industry Education Collaboration (CIEC), these resources help to put curriculum science in a real life context. In these activities, children compare plants grown in a variety of nutrients. They investigate the best conditions to grow turf for a sports pitch.

During the activities...

This activity, from the Institution of Engineering and Technology (IET), introduces students to how sensors can be used in smart applications of electronic systems.

The resource is designed so that students will know...

This is one of a series of resources to support the use of the BBC micro:bit.

In this activity pupils will make use of the BBC micro:bit to design and create a programmable system that can control the temperature and soil moisture levels in a ‘smart’ greenhouse. They will analyse a design brief and design...

A smart material describes a material that senses and responds to an external stimulus or change in the environment, and where the change reverses when the stimulus or change is removed. This resource provides an introduction to the topic of smart materials, looking at the properties of different materials,...

A phase change material are substances that absorb or release energy when it changes its physical state, providing useful heating or cooling properties. Did you know that phase change materials were developed by NASA to keep astronauts comfortable in the extreme temperature fluctuations in space? This resource...

This resource looks at photochromic materials, exploring how they are used and their impact on space inspired products. The slides provide discussion points, investigation ideas and suggestions of practical experiments and products that will allow students to get hands-on with photochromic technology.

This resource explores the properties and uses of piezoelectric materials and quantum tunnelling composites. Taking examples from space technology, it provides a number of examples to discuss in the classroom and suggests practical experiments to give your students a hands-on examples of the technology.

Shape memory alloys (SMA) and shape memory polymers (SMP) remember their original shape, even after being significantly deformed, returning to their original shape in response to a stimulus. This resource explores the technology behind SMA's and SMP's, the properties that they bring to engineered products and...