This test covers the topics of static electricity and circuit diagrams. Suitable for ages 11-14, or older for revision. The test has an allocation of fifty marks covered over four questions. The answer sheet is provided.

This physics lesson covers the following topics, analyzing how motion can be determined. Calculating motion using standard equations in physics. Identifying graphical shapes associated with motion of a projectile.

This worksheet covers the idea of how forces can be in equilibrium and calculations associated with them. A total of twenty-six marks is allocated to the five questions and an answer sheet is provided.

A short fifty mark test covering the idea of motion and the use of SUVAT equations. Aimed at Year 10, this test can also be used as a revision question session.

EMF and internal resistance is covered in this lesson. It will give the pupil an understanding of how we can calculate the EMF of a circuit. The lesson looks at the idea of ‘lost volts’ in a circuit and what internal resistance is and how it can be measured.

This power-point lesson covers the topic of electric charge. It has various definitions and questions relating to the topic. I have added short teacher notes to help and other activities are also included for the students.

The topic of electronegativity is covered in this power-point lesson. With activities of the calculation of electronegativity to simple definitions. Other activities are also included and short teacher notes to help.

This power-point lesson covers the topic of Gravitational potential energy. With diagrams and definitions it covers the topic well, with extra teacher notes and activities included. Numerical questions on GPE are used to help the student understand fully the use of the GPE equation.

This power-point lesson covers the topics of momentum and downward motion. With calculations and exam style questions this lesson helps the students understand the physics behind the ideas. the definition of Law of conservation of momentum is also included.

a lesson where the idea of calculating frictional force is introduced and explained by the use of simple but effective questioning. Examples of exam style questions are also included.

This test is of one hundred marks. It covers the aspects of forces and electrics that would be of GCSE standard for a mixed ability group.

This power-point lesson covers the topic of vector motion. Exam style questions are included with calculations and definitions of the words used in the idea. All calculations are explained step by step.

This lesson covers the module of energetics. The topics it covers are Enthalpy changes and enthalpy profile diagrams Activation energy Standard change of enthalpy Measuring enthalpy changes experimentally using calorimetry Bond enthalpies Hess’s law and enthalpy cycles Calculating average bond enthalpies All calculations include the answers.

A lesson that introduces the idea of elastic and inelastic collisions. Definitions of both are given. Calculations to show which type of collision has actually occurred is also shown.

A lesson that shows the Law of Conservation of Momentum. It introduces the equation for the Law and the definition required for exam questions. Also a quick review of the momentum equation.

A booklet that reviews the main ideas behind the Doppler effect. With clear definitions and some practice questions the booklet covers what is basically required by most examining boards.

Pupils must be able to read and analyse data from graphs for all three main sciences. This lesson helps their understanding of how we interpret and write graphs.

The lesson will cover the idea behind motion and result momentum. This will include exam style questions on vectors, motion and momentum with full explanations.

This lesson will look at how motion can be affected and analysed under different circumstances. How heights can be calculated for example, exam style questions are shown. The explanation of motion graphs is also covered.

This lesson will investigate the calculations related to motion and power. Students will understand how kinetic energy and potential energy have an interlocked dynamic. Calculations are also broken down and fully explained.