1.1: Physical quantities
1.2: SI units
1.3: Errors and uncertainties
1.4: Scalars and vectors
2.1: Equations of motion
3.1: Momentum and Newton’s laws of motion
3.2: Non-uniform motion
3.3: Linear momentum and its conservation
4.1: Turning effects of forces
4.2: Equilibrium of forces
4.3: Density and pressure
5.1: Energy conservation
5.2: Gravitational potential energy and kinetic energy
6.1: Stress and strain
6.2: Elastic and plastic behaviour
7.1: Progressive waves
7.2: Transverse and longitudinal waves
7.3: Doppler effect for sound waves
7.4: Electromagnetic spectrum
7.5: Polarisation
8.1: Stationary waves
8.2: Diffraction
8.3: Interference
8.4: The diffraction grating
9.1: Electric current
9.2: Potential difference and power
9.3: Resistance and resistivity
10.1: Practical circuits
10.2: Kirchhoff’s laws
10.3: Potential dividers
11.1: Atoms, nuclei and radiation
11.2: Fundamental particles
12.1: Kinematics of uniform circular motion
12.2: Centripetal acceleration
13.1: Gravitational field
13.2: Gravitational force between point masses
13.3: Gravitational field of a point mass
13.4: Gravitational potential
14.1: Thermal equilibrium
14.2: Temperature scales
14.3: Specific heat capacity and specific latent heat
15.1: The mole
15.2: Equation of state
15.3: Kinetic theory of gases
16.1: Internal energy
16.2: The first law of thermodynamics
17.1: Simple harmonic oscillations
17.2: Energy in simple harmonic motion
17.3: Damped and forced oscillations, resonance
18.1: Electric fields and field lines
18.2: Uniform electric fields
18.3: Electric force between point charges
18.4: Electric field of a point charge
18.5: Electric potential
19.1: Capacitors and capacitance
19.2: Energy stored in a capacitor
19.3: Discharging a capacitor
20.1: Concept of a magnetic field
20.2: Force on a current-carrying conductor
20.3: Force on a moving charge
20.4: Magnetic fields due to currents
20.5: Electromagnetic induction
21.1: Characteristics of alternating currents
21.2: Rectification and smoothing
22.1: Energy and momentum of a photon
22.2: Photoelectric effect
22.3: Wave-particle duality
22.4: Energy levels in atoms and line spectra
23.1: Mass defect and nuclear binding energy
23.2: Radioactive decay
24.1: Production and use of ultrasound
24.2: Production and use of X-rays
24.3: PET scanning
25.1: Standard candles
25.2: Stellar radii
25.3: Hubble’s law and the Big Bang theory
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Set academic goals with a clear learning roadmap.
Develop a detailed and structured study plan.
Teachers provide close guidance and adapt flexibly to maximize learning outcomes.
Identify strengths, weaknesses, and needs.
Set academic goals with a clear learning roadmap.
Develop a detailed and structured study plan.
Teachers provide close guidance and adapt flexibly to maximize learning outcomes.
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