A2 Alevel physics edexcel. Full double lesson for radioactive half life. Derivation of exponential and logarithmic equations from first principles using integration. Perfect for A/A* students. Practice of using equations building from simple GCSE methods to full A level difficulty. Questions and answers given. Full description of protactinium generator including how to analyze results plotting both exponential and logarithmic graphs. Full experimental data given for if the school doesn’t have the protactinium generator.
A2 A level Physics Edexcel. Converting energy and mass using Einstein’s E=mc2. Discussion of the principles of special relativity. Use of binomial expansion and the Lorentz factor to derive that energy is rest mass and kinetic energy. For A grade. High level challenge and cross curricular links. Explanation of electron volts as units for mass and discussion of the unified mass constant. Example questions and worked solutions. Long answer 6 mark explanation step by step hints and model answers.
AS A level Physics Edexcel chapter 1 rectilinear motion. Everything your students will need for SUVAT and projectiles. Great for A/A* students. Complete powerpoint for entire sequence of learning. This took my classes 6 lessons.
Section 1: Deriving the SUVAT equations and introductory questions with worked solutions /answers.
Section 2: Step by step guide for completing Core Practical 1 “determine the acceleration of a freely falling object” using light gates, free fall apparatus, and G-ball. Instructions to get students to figure out how to complete each part of the experiment and complete the correct analysis. Check list for a perfect practical write up.
Section 3: Complex problems including using resolving in SUVAT and projectiles that do no start and end at the same point. Complete worked examples for both and 10 difficult multi-step questions with worked solutions.
GCSE Physics Edexcel (suitable for any board) or Combined Science. Double lesson starting with recap using images, task to produce detailed summaries of pros and cons for each type. Blank tables given and suggested answers included for fossil fuels, hydroelectric, solar, wind, nuclear, tidal, biomass, geothermal energies. Simple example practice questions with answers. Two long answer questions with hints, model answers and mark schemes.
A2 A level physics edexcel. A lesson to intro the module by completing a recap of all the key aspects of GCSE radioactivity: background radiation, A-Z notation, processes of alpha, beta plus, beta minus and gamma radiation, nuclear decay equations, evidence for the discovery of neutrino, properties of alpha, beta and gamma. Home learning/ homework to complete a risk assessment of using nuclear sources in the lab.
For KS3 (Y8) Physics topic Electricity. 5 lesson sequence including static electricity and current electricity (voltage, current, resistance, series and parallel circuits). Practical activities and student’s investigating relationships for themselves. Plenary quizzes, structured sentences and diagrams.
Two lessons based on revision of the Motion topic for Edexcel Physics GCSE.
Content covers: vectors & scalars, forces, resolving vectors and forces, speed, distance -time graphs, acceleration calculations, velocity-time graphs.
Includes quick quizzes, confidence ratings, key information, questions and answers.
GCSE Edexcel Physics. Entire topic revision slides, specification points, exam questions, answers, practicals and model answers for 6 mark questions. Combined Physics and Separate Physics. The separate topic is clearly marked.
Includes: geocentric and heliocentric models of the solar system, key astrophysics terms, telescopes, gravity calculations, uses of different orbits, orbital motion as a vector, life cycle of a star, model answers for 6 mark life cycle of a star questions, redshift, the doppler effect, origin or the universe, steady state and big bang theory.
GCSE Edexcel Physics. Entire topic revision slides, specifcation points, exam questions, answers, core practicals and model answers for 6 mark questions. Combined Physics and Separate Physics. The separate topic is clearly marked.
Includes: Wave basics, reflection, refraction, TIR, hearing, ultrasound, infrasound, colour, lenses, ray diagrams, EM waves, long and short wave uses.
GCSE Edexcel Physics. Entire topic revision slides, specification points, exam questions, answers, practicals and model answers for 6 mark questions. Combined Physics and Separate Physics. The separate topic is clearly marked.
Includes: Electric circuit symbols, key definitions, charge equations, voltage and current in series and parallel circuits, resistors and resistance, Ohm’s law, LDRs, LEDs, thermistors, current and voltage in special resistors, The heating effect, I-V graphs, explaining graphs using the heating effect, power equations.
Revision question worksheet with answers. Can be used as a whole lesson or for students to do independently.
(produced by Head of Physics and Edexcel examiner)
Topics:
“Mechanics”
“Electric Circuits”
“Further Mechanics”
“Electric and Magnetic Fields”
“Nuclear and Particle Physics”
Resource contains
10 True/False questions as a warm up on the topic
5 multiple choice questions (incl SI/base units, graphs, definitions & calcualtions)
4 short answer (2-4) mark questions.
2 Exam questions with parts a,b,c that include follow on logic or calculations.
1 Long answer(qwc) question on the topic.
For each topic one document contains questions and the other answers.
This is aimed at A Level Physics Edexcel students.
5 Lesson sequence (for 5 double lessons of 1h40) for Edexcel Physics A Level A2.
Including life cycle of a star, H-R diagram, red shift, Doppler shift, Hubble’s Law, Fate of the universe, Wein’s Law, Stefan Boltzman Law, measuring astronomical distances, luminosity, black body radiators, and nuclear binding energy. Practice questions, exam questions and solutions given.
GCSE Edexcel Physics. Entire topic revision slides, specification points, exam questions, answers, practicals and model answers for 6 mark questions. Combined Physics and Separate Physics. The separate topic is clearly marked.
Includes: Atomic models, Rutherford scattering, plum pudding, isotopes, ions, electrons moving orbits, background radiation, alpha, beta and gamma radiation, radioactive decay and equations, half life, applications of radioactivity, ionisation, irradiation, contamination, hospital use, nuclear power and accidents, PET scanners, Gamma cameras, Nuclear fission and reactors, nuclear fusion.
Complete topic for wave basics, radians, wave phase, superposition, standing waves, harmonics in music, double and single slit interference, and diffraction gratings.
Instructions for practicals using standing waves to find the mass per unit length of a string and to find the wavelength of light using a diffraction grating. Example data given for each practical.
Derivation of key formulae.
Exam questions given throughout with solutions.