LESSON PLAN | |||
Ch No | Chapter Title | Topic | No of Hours |
1 | Electric Charges and Fields | Properties of Charge and Coulumb's Law | 1 |
 |  | Electric Field and Flux | 1 |
 |  | Dipole and Gauss' Law | 1 |
 |  | Exercises | 1 |
 |  | Total | 4 |
2 | Electrostatic Potential and Capacitance | Electrostatic Potential | 1 |
 |  | Electrostatic Potential Energy | 1 |
 |  | Conductors and Dielectrics | 1 |
 |  | Capacitors | 1 |
 |  | Exercises | 1 |
 |  | Total | 5 |
3 | Current Electricity | Electric Current and Ohm's Law | 1 |
 |  | Resistivity, Electrical Energy and Power | 1 |
 |  | Combination of resistors and cells | 1 |
 |  | Kirchoff's Laws and Wheatsone Bridge | 1 |
 |  | Meter Bridge and Potentiometer | 1 |
 |  | Exercises | 1 |
 |  | Total | 6 |
4 | Moving Charges and Magnetism | Magnetic Force and Lorent'z Force | 1 |
 |  | Motion in a Magnetic Field | 1 |
 |  | Biot-Savart Law and its applications | 1 |
 |  | Ampere's Circuital Law and its applications | 1 |
 |  | Magnetic Dipole | 1 |
 |  | Force between parallel currents and Moving Coil Galvanometer | 1 |
 |  | Exercises | 1 |
 |  | Total | 7 |
5 | Magnetism and Matter | Bar Magnet and Magnetic Dipole | 1 |
 |  | Electrostatic Analog and Earth's Magnetism | 1 |
 |  | Magnetisation and Magnetic Intensity | 1 |
 |  | Magnetic Properties, Permanent Magnets and Electromagnets | 1 |
 |  | Exercises | 1 |
 |  | Total | 6 |
6 | Electromagnetic Induction | Faraday's Law and Lenz's Law | 1 |
 |  | Motional Emf and Eddy Currents | 1 |
 |  | Mutual Inductance and Self Inductance | 1 |
 |  | AC Generator | 1 |
 |  | Exercises | 1 |
 |  | Total | 5 |
7 | Alternating Current | AC Voltage and AC current | 1 |
 |  | AC applied to Inductor and Capacitor | 1 |
 |  | LCR Circuits | 1 |
 |  | LC Oscillations and Resonance | 1 |
 |  | Power in AC Circuit and Transformer | 1 |
 |  | Exercises | 1 |
 |  | Total | 6 |
8 | Electromagnetic Waves | Electromegnetic Waves and the EM Spectrum | 1 |
 |  | Maxwell's Equations and Displacement Current | 1 |
 |  | Exercises | 1 |
 |  | Total | 3 |
9 | Ray Optics and Optical Instruments | Reflection by Spherical Mirrors | 1 |
 |  | Refraction and Total Internal Reflection | 1 |
 |  | Refraction at Spherical Surfaces and Lenses | 1 |
 |  | Prism and Some Natural Phenomena | 1 |
 |  | Optical Instruments | 1 |
 |  | Exercises | 2 |
 |  | Total | 7 |
10 | Wave Optics | Huygen's Principle and Doppler Effect | 1 |
 |  | Superposition and Young's Double Slit Experiment | 1 |
 |  | Diffraction of Light | 1 |
 |  | Polarisation of Light | 1 |
 |  | Exercises | 1 |
 |  | Total | 5 |
11 | Dual Nature of Radiation and Matter | Photoelectric Effect | 1 |
 |  | Particle Nature of Light and Wave Nature of Matter | 1 |
 |  | Exercises | 2 |
 |  | Total | 4 |
12 | Atoms | Rutherford's Model of Atom | 1 |
 |  | Bohr's Model | 1 |
 |  | Atomic Spectra | 1 |
 |  | Exercises | 1 |
 |  | Total | 4 |
13 | Nuclei | Composition of Nucleus | 1 |
 |  | Mass-Energy Equivalence and Nuclear Binding Energy | 1 |
 |  | Radioactivity | 1 |
 |  | Nuclear Energy | 1 |
 |  | Exercises | 1 |
 |  | Total | 5 |
14 | Semiconductor Electronics | Metals, Conductors and Semiconductors | 1 |
 |  | Intrinsic and Extrinsic Semiconductors | 1 |
 |  | p-n Junction Diodes | 1 |
 |  | Applications of Diodes | 1 |
 |  | Junction Transistor | 1 |
 |  | Applications of Diodes | 1 |
 |  | Digital Electronincs and Logic Gates | 1 |
 |  | Exercises | 2 |
 |  | Total | 9 |
15 | Communication Systems | Basics and Propogation of EM Waves | 1 |
 |  | Modulation | 1 |
 |  | Exercises | 1 |
 |  | Total | 3 |
 |  | Backup Classes | 0 |
 |  | GRAND TOTAL | 79 |