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A level Physics Tutor
Home
1. Measurements and Uncertainties
1.1 Units and Prefixes
1.2 Scalars and vectors
1.3 Measurement techniques and precision
1.4 Error analysis and uncertainty
2. Mechanics
2.1 Kinematics (motion graphs, equations of motion)
2.2 Dynamics (Newton’s laws)
2.3 Forces (including friction, tension, normal force)
2.4 Work, energy, and power
2.5 Momentum and impulse
2.6 Circular motion
3. Materials
3.1 Density and pressure
3.2 Upthrust
3.3 Hooke’s Law
3.4 Young modulus and stress-strain relationships
3.5 Energy in tension
4. Waves
4.1 Wave properties (frequency, wavelength, amplitude)
4.1 Wave equation
4.3 Reflection, refraction, diffraction, and interference
4.4 Superposition and stationary waves
4.5 Polarisation (OCR and Edexcel focus more on this)
5 Electricity
5.1 Current, voltage, resistance, and Ohm’s law
5.2 Series and parallel circuits
5.3 Kirchhoff’s laws
5.4 Internal resistance and EMF
5.5 Potential divider circuits
6. Quantum Physics
6.1 Photoelectric effect
6.2 Energy levels and spectra
6.3 Wave-particle duality
6.4 de Broglie wavelength
7. Thermal Physics
7.1 Internal energy and temperature
7.2 Specific heat capacity and specific latent heat
7.3 Kinetic theory and ideal gases
7.4 Gas laws
8. Fields
8.1 Gravitational fields (Newton’s law of gravitation, gravitational potent
8.2 Electric fields (Coulomb’s law, potential and field strength)
8.3 Magnetic fields (moving charges, electromagnetism, motor effect)
8.4 Capacitance and energy stored in capacitors
8.5 Electromagnetic induction (Faraday’s and Lenz’s laws)
9. Nuclear Physics
9.1 Radioactivity (α, β, γ radiation)
9.2 Half-life and decay equations
9.3 Nuclear equations
9.4 Mass-energy equivalence (E = mc²)
9.5 Fission and fusion
10. Atomic and Particle Physics
10.1 Fundamental particles (quarks and leptons)
10.2 Standard Model overview
10.3 Particle interactions (exchange particles, conservation laws)
10.4 Antiparticles and annihilation
11. Oscillations and SHM (Simple Harmonic Motion)
11.1 Characteristics of SHM
11.2 Damping and resonance
11.3 Energy changes in SHM
12. Astrophysics and Cosmology (Optional in some specs)
12.1 Hubble’s Law and redshift
12.2 Big Bang theory
12.3 Stellar evolution and classification
12.4 Black holes and dark matter (in Edexcel and OCR)
A level Physics Tutor
Home
1. Measurements and Uncertainties
1.1 Units and Prefixes
1.2 Scalars and vectors
1.3 Measurement techniques and precision
1.4 Error analysis and uncertainty
2. Mechanics
2.1 Kinematics (motion graphs, equations of motion)
2.2 Dynamics (Newton’s laws)
2.3 Forces (including friction, tension, normal force)
2.4 Work, energy, and power
2.5 Momentum and impulse
2.6 Circular motion
3. Materials
3.1 Density and pressure
3.2 Upthrust
3.3 Hooke’s Law
3.4 Young modulus and stress-strain relationships
3.5 Energy in tension
4. Waves
4.1 Wave properties (frequency, wavelength, amplitude)
4.1 Wave equation
4.3 Reflection, refraction, diffraction, and interference
4.4 Superposition and stationary waves
4.5 Polarisation (OCR and Edexcel focus more on this)
5 Electricity
5.1 Current, voltage, resistance, and Ohm’s law
5.2 Series and parallel circuits
5.3 Kirchhoff’s laws
5.4 Internal resistance and EMF
5.5 Potential divider circuits
6. Quantum Physics
6.1 Photoelectric effect
6.2 Energy levels and spectra
6.3 Wave-particle duality
6.4 de Broglie wavelength
7. Thermal Physics
7.1 Internal energy and temperature
7.2 Specific heat capacity and specific latent heat
7.3 Kinetic theory and ideal gases
7.4 Gas laws
8. Fields
8.1 Gravitational fields (Newton’s law of gravitation, gravitational potent
8.2 Electric fields (Coulomb’s law, potential and field strength)
8.3 Magnetic fields (moving charges, electromagnetism, motor effect)
8.4 Capacitance and energy stored in capacitors
8.5 Electromagnetic induction (Faraday’s and Lenz’s laws)
9. Nuclear Physics
9.1 Radioactivity (α, β, γ radiation)
9.2 Half-life and decay equations
9.3 Nuclear equations
9.4 Mass-energy equivalence (E = mc²)
9.5 Fission and fusion
10. Atomic and Particle Physics
10.1 Fundamental particles (quarks and leptons)
10.2 Standard Model overview
10.3 Particle interactions (exchange particles, conservation laws)
10.4 Antiparticles and annihilation
11. Oscillations and SHM (Simple Harmonic Motion)
11.1 Characteristics of SHM
11.2 Damping and resonance
11.3 Energy changes in SHM
12. Astrophysics and Cosmology (Optional in some specs)
12.1 Hubble’s Law and redshift
12.2 Big Bang theory
12.3 Stellar evolution and classification
12.4 Black holes and dark matter (in Edexcel and OCR)
More
Home
1. Measurements and Uncertainties
1.1 Units and Prefixes
1.2 Scalars and vectors
1.3 Measurement techniques and precision
1.4 Error analysis and uncertainty
2. Mechanics
2.1 Kinematics (motion graphs, equations of motion)
2.2 Dynamics (Newton’s laws)
2.3 Forces (including friction, tension, normal force)
2.4 Work, energy, and power
2.5 Momentum and impulse
2.6 Circular motion
3. Materials
3.1 Density and pressure
3.2 Upthrust
3.3 Hooke’s Law
3.4 Young modulus and stress-strain relationships
3.5 Energy in tension
4. Waves
4.1 Wave properties (frequency, wavelength, amplitude)
4.1 Wave equation
4.3 Reflection, refraction, diffraction, and interference
4.4 Superposition and stationary waves
4.5 Polarisation (OCR and Edexcel focus more on this)
5 Electricity
5.1 Current, voltage, resistance, and Ohm’s law
5.2 Series and parallel circuits
5.3 Kirchhoff’s laws
5.4 Internal resistance and EMF
5.5 Potential divider circuits
6. Quantum Physics
6.1 Photoelectric effect
6.2 Energy levels and spectra
6.3 Wave-particle duality
6.4 de Broglie wavelength
7. Thermal Physics
7.1 Internal energy and temperature
7.2 Specific heat capacity and specific latent heat
7.3 Kinetic theory and ideal gases
7.4 Gas laws
8. Fields
8.1 Gravitational fields (Newton’s law of gravitation, gravitational potent
8.2 Electric fields (Coulomb’s law, potential and field strength)
8.3 Magnetic fields (moving charges, electromagnetism, motor effect)
8.4 Capacitance and energy stored in capacitors
8.5 Electromagnetic induction (Faraday’s and Lenz’s laws)
9. Nuclear Physics
9.1 Radioactivity (α, β, γ radiation)
9.2 Half-life and decay equations
9.3 Nuclear equations
9.4 Mass-energy equivalence (E = mc²)
9.5 Fission and fusion
10. Atomic and Particle Physics
10.1 Fundamental particles (quarks and leptons)
10.2 Standard Model overview
10.3 Particle interactions (exchange particles, conservation laws)
10.4 Antiparticles and annihilation
11. Oscillations and SHM (Simple Harmonic Motion)
11.1 Characteristics of SHM
11.2 Damping and resonance
11.3 Energy changes in SHM
12. Astrophysics and Cosmology (Optional in some specs)
12.1 Hubble’s Law and redshift
12.2 Big Bang theory
12.3 Stellar evolution and classification
12.4 Black holes and dark matter (in Edexcel and OCR)
4.5 Polarisation (OCR and Edexcel focus more on this)
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