Produced by the Hamilton Trust, this resource aimed at Year Six gives details of six lessons on balanced forces. Children learn about gravity, air resistance, friction and upthrust of liquids. Working scientifically they investigate what happens when an elastic band stretches under force and develop an...

Produced by the Hamilton Trust, these resources give details of seven lessons on electricity. This includes lesson plans, practical activities and all student materials. The lessons reinforce students' understanding of simple circuits and the use of symbols to draw them. They go on to investigate which materials...

This resource from the Institute of Physics, describes how electrocardiagrams (ECGs) record the activity of the heart through electrodes placed on a patient's skin. The teacher's notes contain an introduction to ECGs and lesson notes for the associated PowerPoint file. A mark scheme for the worksheet is also...

From Solar Spark, this practical activity explores the reactions at electrodes in an electrical circuit. A solar cell contains two electrodes. Different reactions happen at each electrode so that electrons can move around the circuit to give an electric current. In this experiment students use filter paper soaked...

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

• Describe the process of electrolysis in terms of chemical reactions occurring at the electrodes.
• Identify the cathode (or anode) in a diagram of the electrolysis of a solution of...

This video demonstrates an experiment to investigate how current affects the strength of a magnetic field. The Phyphox app on a mobile phone is used to measure the magnetic field strength. The second part explains how to plot a graph to evaluate the relationship between current and magnetic field strength. 

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...

Following a presentation on the electromagnetic spectrum, students are asked to produce a presentation which must include the following:

*How frequency is involved in categorising different waves.

This activity, from the Institution of Engineering and Technology (IET), is one of a series of activities which explores body centric communications. Students study data and annotate a diagram to show what electromagnetic radiation can penetrate the atmosphere. The...

• Identify types of electromagnetic radiation that can be naturally occurring.
• Describe a range of sources of harmful electromagnetic...

This poster shows how the electromagnetic spectrum has been divided into seven ‘types’ according to use, with a look at how the National Physical Laboratory (NPL) uses it in high precision measurement.

This activity, from the Institution of Engineering and Technology (IET), looks at the properties and applications of waves in general, and the electromagnetic spectrum in particular. Students are asked to work out the type of electromagnetic radiation used in different...