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teachingisgood is proud to present this presentation which goes over all the key information needed for practical skills in A-level Physics. This presentation explains working with and deriving SI units, definitions and explanations of uncertainties and the mathematics behind Physics. As a whole, this presentation includes: SI units Significant figures Base units Derived units Unit prefixes Measurements of energy Converting between J, eV and, kWh Accuracy and precision Reproducibility and repeatability Errors and uncertainty Random and systematic uncertainty Ways to reduce the different errors in practicals Absolute uncertainty and percentage uncertainty Reducing percentage uncertainty Combining uncertainties Graphing uncertainties and gradients Micrometers and calipers Approximations Estimating masses This presentation also includes loads of practice questions to truly test your knowledge of these topics and to gain a full understanding of how the mathematics and graphing works. The are lots of animations and graphics as well to help make the steps you should take in these processes clearer.

teachingisgood is proud to present a new set of revision aimed to simplify the core items needed for revision of GCSE Physics. Based on the GCSE AQA Physics CGP and Oxford Press textbooks, this revision mat covers all the key concepts that are needed for “P1: Atomic structure and separating mixtures”. This includes: energy stores work done dissipation of energy with detailed examples closed systems Kinetic energy, GPE, EPE law of conservation of energy power

teachingisgood is proud to present a new set of revision aimed to simplify the core items needed for revision of GCSE Physics. Based on the GCSE AQA Physics CGP and Oxford Press textbooks, this revision mat covers all the key concepts that are needed for “P3: Circuit components, series vs parallel, static electricity and I-V components ”. This includes: current, resistance and potential difference equations and definitions cell components and their functions static electricity current, potential difference and resistance in series and parallel components and their I-V characteristics resistance with wire length practical

teachingisgood is proud to present a new set of revision aimed to simplify the core items needed for revision of GCSE Physics. Based on the GCSE AQA Physics CGP and Oxford Press textbooks, this revision mat covers all the key concepts that are needed for “P2: Energy transfer by heating”. This includes: specific heat capacity specific heat capacity practical change in thermal energy equation conduction and convection thermal conductivity lubrication and insulation thermal insulators practical efficiency cavity walls and loft insulation

Fantastic and detailed presentation covering all the topics needed for Turning Points in A-level Physics. teachingisgood is proud to present this resource with covers examples, history, and the key content needed for Turning Points, along with a few light-hearted jokes here and there! The presentation is broking down into 3 key chapters: (1) The discovery of the electron Cathode rays Thermionic emission Specific charge of an electron Thomson’s experiments Millikan’s oil drop experiment (2) Wave particle duality Newton vs Huygens Young’s double slit experiment Fizeau’s speed of light experiment Maxwell’s EM waves Hertz’s radio waves Blackbody radiation & ultraviolet catastrophe Discovery of photoelectricity (3) Special relativity Aethers Michelson-Morley experiment Einstein’s theory of special relativity Time dilation Length contraction Relativistic mass Relativistic energy

teachingisgood is proud to present this PowerPoint presentation which summarises all the content that is needed for the nuclear physics topic in AQA A-level Physics. Exam-stlye questions as well as videos and images are used to explain the concepts clearly throughout, using bullet points and clear sections to breakdown the content. The topics included are: Energy and mass equations Energy/mass conversion during annihilation Energy/mass conversion during production Energy changes in reactions (Q = mc^2) Atomic mass unit Converting units Binding energy Steps of formation of a nucleus Mass deficit / defect Nuclear stability Nuclear reactor Nuclear fission Induced fission Chain reaction of induced fission Maths of chain reactions Energy from chain reactions Fission vs fusion Nuclear fusion Proton-proton chain Solar energy Nuclear fission power Enriching uranium Critical mass Thermal nuclear reactor Radioactive waste Problems with radioactive waste

This PowerPoint resource is designed to simplify the key concepts in the GCSE Physics Paper 2 content, while also covering the hardest topics in detail to support students in getting a high grade in the subject. The content covered includes: Newton’s Laws of Motion Inertia Terminal velocity Distance-time graphs Velocity-time graphs Buoyancy in water Reaction times Average speeds Acceleration, and the practicals - the effect of force on acceleration and The effect of mass on acceleration Electromagnetic waves definition, speed, examples Electromagnetic waves properties, frequencies, wavelengths, production, uses and hazards Refraction This content is based on the AQA Syllabus for GCSE Physics, but works well for all of the following topics above, which is practically the same for Edexcel and OCR.

A PowerPoint presentation covering all the topics needed to understand the radioactivity topic in A-level Physics. The content is geared towards the AQA exam board but can work well for other exam boards too. The presentation clearly explains each topic in a clear and precise way, included images and videos to interact with. There are also practice exam-style questions The topics included are: The discovery of the nucleus Alpha scattering experiment The maths of the alpha scattering experiment Forces involved in the alpha scattering experiment Properties (ranges in air, deflection in magnetic field, etc) of alpha, beta and gamma particles Ionisation experiment Cloud chamber experiment Geiger tube experiment Absorption and range in air test Background radiation Radioactive decay Activity & power Inverse square law Nuclear decay formulae Rate of decay formulae Half-life Decay constant N-Z chart Sub-atomic forces Decay modes Representing decays on N-Z chart Distance of closest approach Electron diffraction Atomic number and nuclear radius Gamma radiation (meta-stable states) Radioactive dating Carbon dating Argon dating Engine wear Radioactive tracers Paper/metal thickness monitoring Remote power sources