12^th CLASS

Point to be Remembered

Chapter 1: Electric Charges and Fields

• Electric charges, conservation of charge, Coulomb’s law
• Electric field, electric field lines, electric dipole
• Electric flux, Gauss’s theorem, and its applications
• Applications of Gauss’s law in various charge distributions

Chapter 2: Electrostatic Potential and Capacitance

• Electric potential, potential difference, equipotential surfaces
• Capacitors, capacitance, combination of capacitors
• Energy stored in a capacitor, dielectric and its effect on capacitance

Chapter 3: Current Electricity

• Electric current, drift velocity, Ohm’s law
• Electrical energy, power, resistivity, conductivity
• Temperature dependence of resistance, resistivity
• Combination of resistances, Kirchhoff’s laws

Chapter 4: Moving Charges and Magnetism

• Magnetic field, Oersted’s experiment, Biot-Savart law
• Ampere’s law, force on a current-carrying conductor
• Torque on a current loop, magnetic dipole moment
• Force between two parallel current-carrying conductors

Chapter 5: Magnetism and Matter

• Bar magnet, magnetic field lines, magnetic properties of materials
• Magnetization, magnetic intensity, susceptibility
• Permanent magnets, hysteresis

Chapter 6: Electromagnetic Induction

• Electromagnetic induction, Faraday’s laws, Lenz’s law
• Induced emf, eddy currents
• Self-inductance, mutual inductance

Chapter 7: Alternating Current

• Alternating currents, peak and RMS value, reactance, impedance
• LC oscillations, LCR series circuit, resonance
• Power in AC circuits, wattless current

Chapter 8: Electromagnetic Waves

• Electromagnetic waves, characteristics, transverse nature
• Electromagnetic spectrum (radio waves, microwaves, infrared, visible, ultraviolet, X-rays, gamma rays)

Chapter 9: Ray Optics and Optical Instruments

• Reflection, refraction, total internal reflection, optical fibers
• Lenses, mirrors, optical instruments (microscope, telescope)
• Dispersion, prism, rainbow

Chapter 10: Wave Optics

• Wavefront, Huygens principle, interference, diffraction
• Polarization, Brewster’s law

Chapter 11: Dual Nature of Radiation and Matter

• Photoelectric effect, Einstein’s equation
• Matter waves, de Broglie wavelength
• Davisson-Germer experiment

Chapter 12: Atoms

• Atomic structure, Bohr model, energy levels
• Hydrogen spectrum, energy level diagram

Chapter 13: Nuclei

• Nuclear structure, radioactivity, nuclear reactions
• Binding energy, nuclear stability

Chapter 14: Semiconductor Electronics

• Energy bands, semiconductors, p-n junction diodes
• Diode characteristics, rectifiers, filters
• Transistors, amplifiers, oscillators