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 Specify 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
26.1 Planning
26.2 Analysis, conclusion and evaluation
