Notes & Flashcards

Past Papers

All Videos

Topical Questions

Paper Analysis

Notes & Flashcards

Past Papers

All Videos

Topical Questions

Paper Analysis

IB DP

Physics

Physics SL

Physics SL - Concept Videos

Access clear, step-by-step explanations to Learn Smarter and Faster.

10:00

Nuclear fission process

10:00

Chain reaction and critical mass

10:00

Applications of nuclear fission (nuclear reactors)

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Nuclear fusion and energy production in stars

10:00

Stellar nucleosynthesis

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Life cycle of stars

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Atomic models (Bohr, quantum model)

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Electron configuration and energy levels

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Isotopes and atomic mass

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Types of radiation: Alpha, beta, gamma

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Half-life and decay constant

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Radioactive decay and applications

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Types of waves: Transverse and longitudinal

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Properties of waves (amplitude, frequency, wavelength, speed)

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Wave equations

10:00

Reflection, refraction, diffraction, and interference

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Doppler effect

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Standing waves and resonance

10:00

Displacement, velocity, and acceleration in SHM

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Energy in SHM

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Pendulum and spring systems

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Power and efficiency

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Work done by a force

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Kinetic and potential energy

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Conservation of mechanical energy

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Scalars and vectors

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Displacement, velocity, and acceleration

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Equations of motion (constant acceleration)

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Graphical analysis of motion

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Newton’s laws of motion

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Force, mass, and acceleration

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Momentum and impulse

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Conservation of momentum

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Collisions and explosions

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Heat and temperature

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Specific heat capacity and latent heat

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Methods of heat transfer (conduction, convection, radiation)

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Thermal expansion

10:00

Earth's energy balance

10:00

Greenhouse gases and their role

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Impact of human activity on the greenhouse effect

10:00

Ideal gas law (PV = nRT)

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Boyle’s law, Charles’s law, Avogadro’s law

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Real gases and deviations from ideal gas behaviour

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Electric charge and current

10:00

Ohm’s law and resistivity

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Kirchhoff’s laws

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Power dissipation in resistors

10:00

Gravitational force and field strength

10:00

Gravitational potential energy

10:00

Kepler's laws and orbital mechanics

10:00

Electric fields and potentials

10:00

Magnetic fields and forces

10:00

Coulomb's law and Gauss’s law

10:00

Applications in motors and electromagnets

10:00

Charge in magnetic fields

10:00

Cyclotron and magnetic force on a current

10:00

Magnetic flux and induction

10:00

Laboratory techniques and safety protocols

10:00

Data collection, analysis, and uncertainty in measurements

10:00

Writing scientific reports and conclusions

10:00

Collaborative research and experimental work

10:00

Communicating scientific findings with others

10:00

Working within interdisciplinary teams

10:00

Developing research questions and hypotheses

10:00

Designing experiments and gathering data

10:00

All Videos

Past Papers

Topical Questions

Paper Analysis

All Videos

Past Papers

All Videos

Topical Questions

Paper Analysis

Physics SL - Concept Videos

All Topics

Nuclear fission process

Chain reaction and critical mass

Applications of nuclear fission (nuclear reactors)

Nuclear fusion and energy production in stars

Stellar nucleosynthesis

Life cycle of stars

Atomic models (Bohr, quantum model)

Electron configuration and energy levels

Isotopes and atomic mass

Types of radiation: Alpha, beta, gamma

Half-life and decay constant

Radioactive decay and applications

Types of waves: Transverse and longitudinal

Properties of waves (amplitude, frequency, wavelength, speed)

Wave equations

Reflection, refraction, diffraction, and interference

Doppler effect

Standing waves and resonance

Displacement, velocity, and acceleration in SHM

Energy in SHM

Pendulum and spring systems

Power and efficiency

Work done by a force

Kinetic and potential energy

Conservation of mechanical energy

Scalars and vectors

Displacement, velocity, and acceleration

Equations of motion (constant acceleration)

Graphical analysis of motion

Newton’s laws of motion

Force, mass, and acceleration

Momentum and impulse

Conservation of momentum

Collisions and explosions

Heat and temperature

Specific heat capacity and latent heat

Methods of heat transfer (conduction, convection, radiation)

Thermal expansion

Earth's energy balance

Greenhouse gases and their role

Impact of human activity on the greenhouse effect

Ideal gas law (PV = nRT)

Boyle’s law, Charles’s law, Avogadro’s law

Real gases and deviations from ideal gas behaviour

Electric charge and current

Ohm’s law and resistivity

Kirchhoff’s laws

Power dissipation in resistors

Gravitational force and field strength

Gravitational potential energy

Kepler's laws and orbital mechanics

Electric fields and potentials

Magnetic fields and forces

Coulomb's law and Gauss’s law

Applications in motors and electromagnets

Charge in magnetic fields

Cyclotron and magnetic force on a current

Magnetic flux and induction

Laboratory techniques and safety protocols

Data collection, analysis, and uncertainty in measurements

Writing scientific reports and conclusions

Collaborative research and experimental work

Communicating scientific findings with others

Working within interdisciplinary teams

Developing research questions and hypotheses

Designing experiments and gathering data

Data analysis and interpretation of results

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