This is an 16 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic Forces and the parameters of Linear Motion. This is the second PowerPoint in this section which covers Newton’s second law, Momentum, Frictional Force calculations, Work Done, and Power. There is also a supporting worksheet of questions including an answer sheet.

iGCSE Physics PowerPoint that covers the topics of conduction and convection. This 18 page powerpoint explains the two methods of thermal transfer, goes through a science classroom experiment for each and links to insulation with a third experiment fully explained. There are also links with weather patterns and a discussion of the four variables that control conductive transfer rates. This is the second of 6 topics in this units of work and is aimed at covering approximately 3 hours of teaching, including the experiments.

This is a 13 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topics of Specific Heat Capacity and Specific Latent Heat. This lesson covers the calculations for both heating and changing state of materials. The use of the gradients and scales of graphs are also covered as a method to finding the SHC and SLH of materials that are tested. This is the third PowerPoint in this section (Thermodynamics) and includes a slide which outlines the standard experiment to find the SHC of a substance using an immersion heater. v1.1 - Worksheet and answers add; minor grammar changed on graph explanation

This is a 10 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of Heat Transfers. This includes a mathematical explanation of conduction and qualitative explanations for radiations and convection. This is the first PowerPoint in this section (Thermodynamics) and includes a worked example of conduction using steady rate thermal conductivity.

This is an 11 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of magnetism and solenoids. This PowerPoint includes a description of magnetic strength, magnetic flux density, reluctance, and magnetomotive force. There are several worked examples of the various formulae. This is the first PowerPoint in this section (Magnetism and Electromagnetic induction). v1.01 (Nov 2021 ) - Minor improvements

This is a 12 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topics of Enthalpy, Entropy and the Gas Laws. The first two sub-topics are briefly defined and covered qualitatively with the formula for Enthalpy included. The gas laws are broken down into Boyle’s Law and Charles’ law before being combined to make the standard gas law pV/T = constant This is the fifth PowerPoint in this section (Thermodynamics) and includes a worked example of the use of the gas law when pumping up a bike tyre.

iGCSE - Refraction of light and refractive index This lesson covers the refraction of light and the calculation of refractive index when passing from air into transparent materials. This lesson also demonstrates the experiment that can be performed, step-by-step with animation. There are also two examples of light entering and exiting other shapes (prism and edge of a square) which can cause pupils issues in exams.

iGCSE - Total Internal Reflection This lesson covers the refraction of light and the calculation of refractive index as applied to the phenomenon of total internal reflection. This lesson also demonstrates the experiment that can be performed, step-by-step with animation.

This is a 12 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topics of Electric fields. This covers the basics of radial fields around point charges, uniform fields, electrical field strength, electric flux, electric flux density, and Coulomb’s Law. A worksheet and answers is also included. This is the first PowerPoint in this section (Electricity and circuits).

This is an 11 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of self-inductance and transformers. This lessons covers the calculations from self-inductance, and explanation of the unit “henry” and how it applies to circuits, mutual inductance and transformer design and calculations. This is the fifth and final PowerPoint in this section (Magnetism and Electromagnetic induction).

This is an 10 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of single phase alternating current theory. This lessons revisits the graphical representation of AC voltage changes as a sine wave, and then covers the calculations for the average and root mean squared voltages. This is consolidated with a worked example that shows how the form factor is a constant. This is the first PowerPoint in this section (Single Phase Alternating Current).

This PowerPoint lesson on Magnets covers the basics on drawing magnetic fields around bar magnets, both on their own and when attracting and repelling each other. There is also a PDF worksheet with three magnet drawings for the pupils to complete. This is the first (of 8) lessons in this section entitled “Magnetism and Electromagnetism” which is available as a bundle in our shop.

This is an 18 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of Conservation of Energy. This is the forth and final PowerPoint in this section and it covers Work Done, Kinetic Energy and Gravitational Potential Energy. The slides take the reader through several worked examples and explanations of the use of these formula. v1.01 - Error in calculation corrected v1.1 - Worksheet of questions and answers added

This is an 17 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of SUVAT including the main formulae, their derivations and use. There is also a worksheet of questions and the answers are included. This is the first PowerPoint in this section, which is available as a bundle, covering Dynamic Engineering Systems. v1.1 - A quick worksheet on unit conversion practice has been added, in addition to the SUVAT worksheet v1.11 Minor improvements to ppt made (mainly italics in parameters throughout)

This PowerPoint lesson on Magnetising covers creating permanent and temporary magnets, hard and soft magnetic materials, and the practical method for creating electromagnets in the classroom. This is the second (of 8) lessons in this section entitled “Magnetism and Electromagnetism” which is available as a bundle in our shop.

This is a 9 slide PowerPoint that covers BTec National Engineering (A-Level equivalent) on the topic of Momentum This is the third PowerPoint in this section which goes over the basic calculations for two body problems including collisions that stick together, bounce apart, and explosions. This lesson is supported with a set of questions and fully worked answers. This PowerPoint is designed as an animated set of examples of each of the three main types of momentum problems.

iGCSE Physics PowerPoint that covers the topic of thermal radiation. This 14 page powerpoint explains how thermal radiation (infrared) is absorbed and emitted from different surfaces. Two experiments are explained in detail as well as the results from the Leslie cube demonstration including a FLIR photo. A vacuum flask diagram is also explained and links back to the previous lesson on conduction and convection. Common misconceptions are also highlighted. This is the third of 6 topics in this units of work and is aimed at covering approximately 2-3 hours of teaching, including the experiments.

iGCSE Physics PowerPoint that covers the topic of Work Done. This 14 page powerpoint explains how frictional forces, including air resistance, needs to be overcome to keep an object moving. This is investigated with two practicals (one looking at surfaces and the second similar / extension practical looking at the effect of changing the weight of the object on friction). Graphing skills with extrapolation are also highlighted. This is the fourth of 6 topics in this units of work and is aimed at covering approximately 2-3 hours of teaching, including the experiments.

This PowerPoint goes through the mathematics needed to calculate Kinetic, Work Done and Gravitational Potential Energy. It builds on and reviews velocity calculations. There are two versions of a step-by-step object on a slope experiment which will enable pupils to test the equating of the formulae for Kinetic energy and Work Done and utilise this for calculating braking forces due to friction.

iGCSE Physics PowerPoint that covers the topic of Energy including: Energy stores, energy forms, energy transfers, two practical lessons with methods and analysis, conservation of energy, and energy efficiency calculations. This is the first of 6 topics in this units of work and is expected to cover approximately 3 hours of teaching. v1.1 - Added Sankey diagram slide and a second summary slide