A Year Ten module from the Salters double award science course. Models are used to illustrate conservation of current in a series circuit leading to studies of voltage, current and resistance and the resistance law. Devices which have different resistance in response to...

A multiple choice quiz on electricity, sensing, waves and quantum physics.

Although it is written for OCR AS/A level physics (H156, H556, H157, H557) it can be edited to suit your scheme of work.

This booklet contains a range of suggested teaching activities and contexts for teaching about electricity at A level. Curriculum links include charge, electron drift, energy, power and resistance, circuit symbols, electromotive force (e.m.f.) and potential difference (p.d.), Ohm's law, resistivity, series and...

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...

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...

Produced by StoryCog, this video demonstrates the process of electromagnetic induction. The video shows a simple piece of equipment that can readily be made which contains spinning magnets, a wire coil and a lamp. Spinning the magnets past the coil produces an electric current and lights the lamp.

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

This video revises the order of electromagnetic spectrum (GCSE) and introduces the range of magnitudes of wavelengths and corresponding frequencies for each type of electromagnetic radiation.

This video helps students to visualise the electric and magnetic field components of an electromagnetic wave.

The electric and magnetic oscillations (vibrations) are at 90⁰ to each other and also to the direction of energy propagation. 

This resource provides a lesson plan showing how to use computer modelling to teach about induced potential. The approach used in the lesson is based on education research which is summarised in a separate research summary document.

The lesson suggests a sequence of activities and key questions to ask to...