Edexcel A-Level Physics Courses Now Available

Physics at A-Level rewards deep understanding. Memorising equations will only take you so far -- the students who do well can set up problems from first principles, link concepts across topics, and explain the reasoning behind their answers. That takes structured practice, and a lot of it.

LearningBro has launched 11 new courses covering the complete Edexcel A-Level Physics specification. Together, they contain 110 lessons and 1,100 practice questions, giving you a thorough resource whether you are learning the material for the first time or revising ahead of exams.

The 11 Courses

Here is what each course covers.

Mechanics -- Kinematics, Newton's laws, momentum, work, energy, and power. You will learn to resolve forces, analyse motion using graphs and equations, and apply conservation laws to collisions. Mechanics is the backbone of A-Level Physics, and the problem-solving skills you build here carry into every other topic.

Electric Circuits -- Current, voltage, resistance, Ohm's law, resistivity, EMF, internal resistance, potential dividers, and Kirchhoff's laws. The course pushes you beyond surface-level understanding to deal with non-standard circuit arrangements and explain your reasoning clearly.

Materials -- Stress, strain, the Young modulus, elastic and plastic deformation, and the properties of different materials. You will connect macroscopic behaviour to the underlying physics at the atomic level and practise interpreting stress-strain graphs.

Waves and Particle Nature of Light -- Wave properties, superposition, interference, diffraction, standing waves, the photoelectric effect, wave-particle duality, and energy levels in atoms. Understanding the experimental evidence is just as important here as knowing the equations.

Further Mechanics -- Circular motion, simple harmonic motion, and the mathematical descriptions of oscillating systems. The questions demand comfort with trigonometric functions and the ability to move between graphical and algebraic representations.

Electric and Magnetic Fields -- Electric fields, Coulomb's law, capacitance, capacitor charging and discharging, magnetic flux density, the motor effect, electromagnetic induction, and Faraday's and Lenz's laws. These topics bring together ideas from electricity and mechanics in ways that students often find challenging, and the course gives you structured practice with both the reasoning and the calculations.

Nuclear and Particle Physics -- Nuclear stability, radioactive decay, fission, fusion, quarks, leptons, bosons, conservation laws, and Feynman diagrams. This is a conceptually rich part of the specification that is often under-revised, and targeted practice here can pick up marks that many students miss.

Thermodynamics -- The kinetic theory of gases, internal energy, the first law of thermodynamics, specific heat capacity, and specific latent heat. You will connect the microscopic behaviour of particles to macroscopic quantities and perform calculations using the ideal gas equation.

Gravitational Fields and Space -- Gravitational field strength, gravitational potential, orbital mechanics, escape velocity, Kepler's laws, and the evidence for dark matter and dark energy. The questions require careful attention to inverse-square law relationships and the distinction between field strength and potential.

Oscillations and Nuclear Radiation -- Damped and forced oscillations, resonance, and the detailed treatment of alpha, beta, and gamma radiation, including half-life calculations, activity, and exponential decay. These topics often appear in extended response questions, so the course practises both calculations and written explanations.

Exam Preparation -- Exam technique and strategy for Edexcel A-Level Physics: approaching multi-mark calculations, writing clear "show that" and "explain" answers, managing time across papers, and avoiding common errors. Work through this course in the final weeks before your exams.

The Learning Path

The order in which you study physics matters. Later topics build heavily on earlier ones -- you cannot tackle electric fields without solid mechanics, and thermodynamics relies on ideas from materials and energy.

The Edexcel A-Level Physics learning path links all 11 courses in specification order, giving you a clear route from start to finish. It begins with mechanics and electric circuits, builds through waves and materials, and progresses into the more advanced topics in the second year of the course.

If you are following the two-year A-Level programme, the path mirrors the typical teaching order. If you are revising, you can jump to any course directly while still seeing where it fits in the overall sequence.

How the Courses Work

Each of the 110 lessons focuses on a specific topic within the specification. After working through the lesson content, you answer 10 practice questions at exam-level difficulty. These are not just numerical calculations -- you will face questions requiring diagram interpretation, written explanations, multi-step reasoning, and the application of physics to unfamiliar contexts.

When you get stuck, the AI tutor provides hints and guidance without handing you the answer. In physics, knowing where your reasoning went wrong is often more valuable than seeing the correct solution.

Progress tracking lets you see which courses and lessons you have completed, so you always know where you stand.

Get Started

These courses are designed for anyone studying Edexcel A-Level Physics, whether you are in Year 12 learning the content for the first time, in Year 13 revising for final exams, or studying independently.

All 11 courses are available now. Visit the Edexcel A-Level Physics learning path to see the full sequence and begin with mechanics, or go straight to whichever topic you need to work on.