12.1 Electric charge and Coulomb Law

12.2 Electric field at a point due to a point charge

12.3 Electric lines of force

12.4 Xerography

12.5 Inkjet printer

12.6 Electric Flux

12.7 Electric flux through a surface enclosing a charge

12.8 Gauss's Law and its applications

12.9 Electric Potential, Potential difference, Electric potential energy

12.10 Electric Field as a potential gradiant

12.11 Electric potential at a point due to a point charge

12.12 Electron Volt, Comparison between electric and gravitational force, Millikan's method

12.13 Capacitor, Capacitance, effect of medium on capacitance and Electric Polarization

12.14 Energy stored in a capacitor and Energy density

12.15 Charging and discharging of a capacitor

13.1 introduction to current and elecricity

13.2 current through a metallic conductor, drift velocity and effects to current

13.3 Ohm's Law

13.4 Review of series and parallel combination of resistors

13.5 Resistivity, Conductance, Conductance and temperature coefficient of resistance

13.6 Color coding of resistors

13.7 Rheostat and its uses

13.8 Thermistors

13.9 Electrical power and power dissipation

13.10 EMF and Terminal potential difference

13.11 Maximum Power output

13.12 Kirchhoff's First Law

13.14 Wheatstone Bridge

13.13 Kirchhoff's second law

14.1 Electromagnetism, magnetic field due to a current carrying wire, Right hand rule

14.2 Force on a current carrying conductor

14.3 magnetic flux_1

14.4 Ampere's Law and Magnetic field intensity due to current carrying solenoid

14.5 Force on a moving charge in a magnetic field

14.6 Lorentz Force and charge to mass ratio of an electron

14.7 Cathode ray oscilloscope

14.8 Torque on a current carrying coil

14.9 Galvanometer

14.10 Methods to find angle of deflection

14.11 Conversion of galvanometer into ammeter

14.12 Conversion of galvanometer into voltmeter

14.13 Conversion of galvanometer into ohmmeter

14.14 AVO meter and DMM

15.1 Induced EMF, induced current, electromagnetic induction

15.2 motional EMF

15.3 faraday's law of electromagnetic induction

15.4 Lenz's law

15.5 Mutual induction

15.6 Self induction

15.7 Energy stored in an inductor

15.8 AC generator

15.9 DC generator

15.10 Back motor effect in generator

15.11 DC motor

15.12 Back EMF in motor

16.1 Waveform of alternating current

16.2 Phase of alternating current

16.3 AC through a resistor

16.4 AC through a capacitor

16.4.2 Generation transmission and reception of electromagnetic waves

16.5 AC through an inductor

16.6 Power dissipation in resistor, Capacitor, inductor and Impedence

16.8 RL series circuit

16.7 RC series circuit

16.9 Series resonance circuit

16.10 Parallel resonance circuit

16.11 Three Phase AC supply

16.12 Principle of metal detector

17.1 Classification of solids

17.2 Crystal lattice and unit cel

17.3 Mechanical properties of solids, Stress and Strain, Modulus of elasticity

17.4 Elastic limit and yield point

17.5 Electrical properties of solids and Energy band theory

17.6 Intrinsic and extrinsic semi conductors and super conductors

17.7 hysterisis loop

18.1 PN Junction

18.2 Forward and Reverse Biasing

18.3 Rectification and half wave rectifier

18.4 Full wave rectifier

18.5 SPECIALLY DESIGNED PN JUNCTION

18.6 TRANSISTOR

18.7 TRANSISTOR AS AN AMPLIFIER

18.8 OP AMP

18.9 DIGITAL SYSTEM AND LOGIC GATES

20.1 Spectroscopy

20.2 ATOMIC SPECTRUM OF HYDROGEN

20.3 BOHR'S MODEL OF HYDROGEN ATOM

20.4 QUANTIZED RADII

20.5 IONIZATION ENERGY AND POTENTIAL

20.6 INNER SHELL TRANSITION AND PRODUCTION OF XRAYS

20.7 Quantized Energies

20.8 Properties and uses of X-Rays

20.9 CAT scanner and Biological effects of XRays

20.10 Uncertainty within atom

19.1 Relative motion and frame of reference

19.2 Postulates of special theory of relativity

19.3 energy mass relationship and NAVSTAR navigation system

19.4 Black body radiations

21.1 Atomic neucleus

21.2 Mass spectrograph

21.3 mass defect and binding energy

21.4 radio activity

21.5 Half life

21.6 Interaction of radiation with matter

21.7 Radiation detectors