SP025
Chapter 1
ELECTROSTATICS
1.1 Coulomb’s Law
1.2 Electric Field
1.3 Electric Potential
1.4 Charge in a Uniform Electric Field
Chapter 2
CAPACITOR
AND
DIELECTRICS
2.1 Capacitance and Capacitors in Series and Parallel
2.2 Charging and Discharging of Capacitors
23 Capacitors With Dielectrics
Chapter 3
ELECTRIC CURRENT
AND DIRECT-CURRENT CIRCUITS
3.1 Electrical Conduction
3.2 Ohm’s Law and Resistivity
3.3 Variation of Resistance With Temperature
3.4 Electromotive Force (emf), Internal Resistance and Potential Difference
3.5 Resistors in Series and Parallel
3.6 Kirchhoff’s Rules
3.7 Electrical Energy and Power
3.8 Potential Divider
3.9 Potentiometer
Chapter 4
MAGNETISM
4.1 Magnetic Field
4.2 Resultant Magnetic Field Produced by Current-Carrying Conductor
4.3 Force on a Moving Charged Particle in a Uniform Magnetic Field
4.4 Force on a Current-Carrying Conductor in a Uniform Magnetic Field
4.5 Forces Between Two Parallel Current-Carrying Conductors
4.6 Torque On a Coil
4.7 Application of Motion of Charged Particle
Chapter 5
ELECTROMAGNETIC INDUCTION
5.1 Magnetic Flux
5.2 Induced EMF
5.3 Self-Inductance
5.4 Energy Stored in Inductor
5.5 Mutual Inductance
Chapter 6
ALTERNATING CURRENT
6.1 Alternating Current
6.2 Root Mean Square (rms)
6.3 Resistance, Reactance and Impedance
6.4 Power and Power Factor
Chapter 7
GEOMETRICAL OPTICS
7.1 Reflection at a Spherical Surface
7.2 Refraction at a Spherical Surface
7.3 Thin Lenses
Chapter 8
PHYSICAL OPTICS
8.1 Huygen's Principle
8.2 Constructive and Destructive Interference
8.3 Interference of Transmitted Light Through Double Slits
8.4 Interference of Reflected Light in Thin Films
8.5 Diffraction by a Single Slit
8.6 Diffraction Grating
Chapter 9
QUANTIZATION
OF LIGHT
9.1 Planck's Quantum Theory
9.2 Photoelectric Effect
Chapter 10
WAVE PROPERTIES
OF PARTICLE
10.1 de Broglie Wavelength
10.2 Electron Diffraction
Chapter 11
NUCLEAR AND PARTICLE PHYSICS
11.1 Binding Energy and Mass Defect
11.2 Radioactivity
11.3 Introduction to Particle Physics