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NEET 2025 |
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PHYSICS |
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Standard XII |
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Module Number |
Chapter Number |
Chapter Name |
Class Needed |
Total Hour |
Lecture |
Sub Topic |
|
Module 4 |
1 |
Electric Charge and Fields |
8 |
16 |
Class 1 |
Introduction : Electric Charge, Conductor and insulators, Methods of charging, Basic Properties of Electric Charge, Types of Charge Distribution |
|
Class 2 |
Coulomb's Law : Introduction, Vector form of Coulomb's Law, Principle of Superposition, Force Between Multiple Charges |
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|
Class 3 |
Electric Field : Electric Field due to system of charge |
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|
Class 4 |
Electric Field Lines, Electric Field on the axis of ring, Motion of a charge particle in an Electric Field |
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|
Class 5 |
Electric Dipole : Introduction, Electric Field due to dipole, Dipole in uniform electric field (Torque) |
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|
Class 6 |
Electric Flux and Gauss Law |
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|
Class 7 |
Application of Gauss Law : Infinitly long uniformly charged straight wire, Infintly long Charged Cylinder, Infinite Plane sheet |
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|
Class 8 |
Application of Gauss Law : Hollow Sphere, Solid Sphere |
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|
2 |
Electric |
7 |
14 |
Class 1 |
Introduction : Electrostatics Potential, Potential due to Point Charge, Potential due to system of charge |
|
|
Class 2 |
Electric Potential Energy of a System of Charge, Potential Energy of a point charge in an External Field |
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|
Class 3 |
Potential due to an electric dipole, Potential Energy a Dipole in an External Field |
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|
Class 4 |
Equipotential Surface, Relation between electric field and Potential |
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|
Class 5 |
Properties of Conductors, Dielectric and Polarization, Capacitor and Capacitance : Parallel Plate Capacitor |
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|
Class 6 |
Force between Plates of Parrallel Plate Capacitor, Enegry Stored in Capacitor, Effect of dielectric |
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|
Class 7 |
Combination of Capacitor : Series and Parallel |
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|
3 |
Current |
6 |
12 |
Class 1 |
Inroduction of Current, Ohm's Law, Drift Velocity |
|
|
Class 2 |
Temperature Dependence of Resistance, Combination of Resistances |
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|
Class 3 |
EMF of Cell, Internal Resistance of a Cell, Terminal Potential Difference, Combinations of Cell |
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|
Class 4 |
Kirchhoff's Law, Wheatstone Bridge, Meter Bridge |
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|
Class 5 |
Electrical Energy, Power, Maximum Power Theorem |
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|
Class 6 |
Joule's Law of Heating/ Heating Effect of Current, RC Circuit(Knowledge Enhancer) |
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|
Module 5 |
4 |
Moving Charges and Magnetism |
7 |
14 |
Class 1 |
Introduction, Magnetic Force On A Moving Charge |
|
Class 2 |
Magnetic Force On A Current Carrying Conductor |
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|
Class 3 |
Motion Of Charged Particle In A Magnetic Field |
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|
Class 4 |
Magnetic Field Due To A Current Carrying Element (Biot-Savarts Law), Magnetic Field Due To A Current Carrying Straight Wire |
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|
Class 5 |
Magnetic Field Due To A Circular Loop, Ampere Circuital Law |
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|
Class 6 |
Solenoid, Force Between Two Parallel Currents (The Ampere) |
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|
Class 7 |
Torque On A Current Carrying Oil, Magnetic Moment, Moving Coil Galvanometer (Current And Voltage Sensitivity) |
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|
5 |
Magnetism and Matter |
3 |
6 |
Class 1 |
Introduction, Bar Magnet, Magnetic Field Lines, Bar Magnet As An Equivalent Solenoid, Dipole In A Uniform Magnetic Field |
|
|
Class 2 |
The Electrostatic Analog Of Bar Magnet, Magtism And Gauss Law |
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|
Class 3 |
Magnetisation And Magnetic Intensity, Magnetic Properties Of Material (Dimagnetism, Paramagnetism And Ferromagnetism) |
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|
6 |
Electromagnetic Induction |
4 |
8 |
Class 1 |
Introduction, The Experiments Of Faraday And Henry, Magnetic Flux, Faraday'S Law Of Induction |
|
|
Class 2 |
Lenz'S Law And Conservation Of Energy, Motional Electromotive Force |
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|
Class 3 |
Inductance (Self Induction And Mutual Induction) |
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Class 4 |
Series And Parallel Combination Of Inductance, Energy Stored In An Inductance, Ac Generator |
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|
7 |
Alternating Current |
4 |
8 |
Class 1 |
Introduction, Average Current, Root Mean Square Current |
|
|
Class 2 |
AC Voltage Applied to a Resistor, Representation of AC Current And Voltage By Rotating Vectors (Phasors), AC Voltage Applied To An Inductor, AC Voltage Applied To A Capacitor |
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Class 3 |
AC Voltage Applied To A Series LCR Circuit, AC Voltage Applied To A Series LR Circuit, AC Voltage Applied To A Series RC Circuit, Resonance |
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Class 4 |
Bandwidth, Quality Factor, Power In Ac Circuit, Transformers |
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|
8 |
Electromagnetic Waves |
2 |
4 |
Class 1 |
Introduction, Displacement Current, Maxwell'S Equation In Vacuum |
|
|
Class 2 |
Electromagnetic Waves, Electromagnetic Spectrum |
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|
Module 6 |
9 |
Ray Optics and Optical Instruments |
6 |
12 |
Class 1 |
Introduction, Plane Mirrors |
|
Class 2 |
Reflection of Light by Spherical Mirrors |
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Class 3 |
Concept of Refraction, Refration of lIght from Glass slab, Apparent Shift, Total Internal Reflection |
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Class 4 |
Refraction at Spherical Surface, Lens, Lens makers Formula |
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Class 5 |
Power of a Lens, Combination of Thin Lenses, Refraction Through a Prism |
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Class 6 |
Optical Instruments |
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|
10 |
Wave Optics |
4 |
8 |
Class 1 |
Introduction, Huygen's Principle, Reflection and Refraction of Plane Wave using Huygen's Principle |
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|
Class 2 |
Coherent and Incoherent addition of Waves, Interference of Light Wave |
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|
Class 3 |
Young's Double slit Experiment |
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Class 4 |
Diffraction and Polarization |
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|
11 |
Dual Narute of Radiationa and Matter |
2 |
4 |
Class 1 |
Introduction, Electron Emission, Photoelectric Effect |
|
|
Class 2 |
Einstein's Photoelectric Equation, Particle Nature of Light (Photon), Wave Nature of Matter, DeBroglie's Hypothesis |
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|
12 |
Atoms |
2 |
4 |
Class 1 |
Introduction, Rutherford's Model of Atom, Bohr Model of Hydrogen Atom |
|
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Class 2 |
Energy Levels, Line Spectra of the Hydrogen Atom, De-Broglies Explanation of Bohr's Second Postulate |
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|
13 |
Nuclei |
2 |
4 |
Class 1 |
Introduction, Atomic Mass and Composition of Nucleus, Size of Nucleus, Mass-Energy Equivalence, Nuclear Force |
|
|
Class 2 |
Binding Energy, Radioactivity (Basic Information), Nuclear Energy (Fission and Fusion) |
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|
14 |
Semiconductor Electronics: Materials, Devices and Simple Circuits |
3 |
6 |
Class 1 |
Introduction, Classification of Conductors, Insulators and Semiconductors, Intrinsic Semiconductor, Extrinsic Semiconductor |
|
|
Class 2 |
P-N Junction Diode, Biasing of Diode, Rectifier, Knowledge Enhancer (Zener Diode, LED, Solar Cell, Photodiode) |
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|
Class 3 |
Logic Gates |
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|
TOTAL |
60 |
120 |
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|
Module |
Chapter Number |
Chapter Name |
No. of Classes |
Hrs |
Lecture Code |
Lecture Content |
|
Module-IV |
1 |
Solutions |
5 |
10 |
1 |
Types of Solutions,Concentration Terms. |
|
2 |
Solubility of a Solid in Liquid, Solubility of a Gas in Liquid, Henry’s Law |
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|
3 |
Raoult’s Law for Binary Solution, Ideal & Non-Ideal Solutions |
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|
4 |
Colligative Properties & Determination of Molar Mass: Relative Lowering of Vapour Pressure, Elevation in Boiling Point |
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|
5 |
Depression in Freezing Point, Osmosis & Osmotic Pressure, Reverse Osmosis, Abnormal Molar Mass & Concept of Van’t Hoff Factor |
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|
|
|
|
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SUMMARY : Total Lecture : 4 |
|
|
2 |
Chemical Kinetics |
6 |
12 |
1 |
Rate of a Chemical Reaction, Factors Affecting Rate of Reaction, Rate Expression and Rate Constant |
|
|
2 |
Order & Molecularity of a Reaction, Elementary and Complex Reaction, Rate Determining Step, Order of Elementary and Complex Reaction |
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|
3 |
Integrated Rate Equations of Zero Order & First Order Reactions, Half-life of Reaction |
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|
4 |
Pseudo First Order Reaction, Temperature Dependence of the Rate of Reaction, Effect of Catalyst |
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|
5 |
Activation Energy, Collision Theory of Bimolecular Reactions |
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|
6 |
Problem Solving & Doubt Discussion |
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|
|
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|
SUMMARY : Total Lecture : 6 |
|
|
3 |
Electrochemistry |
7 |
14 |
1 |
Introduction to Electrolysis, Qualitative Electrolysis |
|
|
2 |
Quantitative Electrolysis: Faraday’s Laws of Electrolysis |
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|
3 |
Galvanic Cell, Electrode Potential, Types of Electrodes, Cell Notation, Introduction to Nernst Equation |
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|
4 |
Application of Nernst Equation |
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|
5 |
Batteries - Primary & Secondary, Corrosion & Rusting of Iron |
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|
6 |
Electrolytic Conductance & Conductivity |
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|
7 |
Kohlrausch’s Law & its Applications |
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|
|
|
|
|
|
|
SUMMARY : Total Lecture : 7 |
|
Module V |
4 |
Haloalkanes and Haloarenes |
6 |
12 |
1 |
Classification of Organic Halides, Nomenclature of Organic Halides, Nature of C-X bond, Dipole Moments, Physical Properties of Organic Halides |
|
2 |
Fundamental Concepts in Organic Reaction Mechanism, Substrate, Reagent (Electrophile and Nucleophile), Nucleophilicity vs Basicity, Types of Leaving Groups |
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|
3 |
Mechanism of Aliphatic Nucleophilic Substitution: SN1 & SN2 |
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|
4 |
Methods of Preparation of Haloalkanes (using SN1 & SN2) and Preparation of Haloarenes |
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|
5 |
Elimination Reactions, Comparative Study of SN1 vs E1 & SN2 vs E2 |
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|
6 |
Mechanism of Aromatic Nucleophilic Substitution and Elimination-Addition Reaction (Benzyne Mechanism) |
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|
|
|
|
|
|
SUMMARY : Total Lecture : 6 |
|
|
5 |
Alcohols, Phenols and Ethers |
6 |
12 |
1 |
Common & IUPAC Nomenclature of Alcohols, Phenols & Ethers, Physical Properties & Acidic Strength of Alcohols & Phenols |
|
|
2 |
Preparation of Alcohols |
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|
3 |
Chemical Properties of Alcohols |
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|
4 |
Preparation of Phenols & its Chemical Properties |
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|
5 |
Chemical Properties of Phenols (continued) |
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|
6 |
Ethers: Methods of Preparation & Chemical Properties |
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|
|
|
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|
SUMMARY : Total Lecture : 6 |
|
|
6 |
Aldehydes, Ketones and Carboxylic Acids |
10 |
20 |
1 |
Nomenclature of Aldehydes and Ketones. Structure of carbonyl group, Physical Properties of Aldehydes and Ketones |
|
|
2 |
Preparation of Aldehydes & Ketones -By Oxidation of Alcohol, By Dehydrogenation, of Alcohols, from Hydrocarbons, from Dihalides, from Grignard Reagent, from Rosenmund Reaction, from Stephen Reduction, from Reduction of Ester, from Methyl benzene, from Gatterman-Koch Reaction, from F, C Reaction |
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|
3 |
Nucleophilic Addition Reactions - Addition of HCN, Water, Grignard Reagent, NaHSO3, Alcohols, Diols, NH3 and Ammonia Derivatives. |
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|
4 |
Reduction & Oxidation Reactions of Aldehydes & Ketones |
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|
5 |
Aldol Reaction: Mechanism, Self-Aldol, Cross-Aldol & Intramolecular Aldol, Keto-Enol Tautomerism |
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|
6 |
Haloform Reaction: Mechanism & Iodoform Test, Cannizzaro Reaction: Mechanism, Self-Cannizzaro, Cross-Cannizzaro & Internal Cannizzaro |
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|
7 |
Nomenclature of Carboxylic Acids, Physical Properties and Acidic Strength of Carboxylic Acids |
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|
8 |
Preparation of Carboxylic Acid and it's Derivatives |
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|
9 |
Chemical Properties of Carboxylic Acids |
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|
10 |
Reaction of Acid Derivative and Relative Reactivity |
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|
SUMMARY : Total Lecture : 10 |
|
|
7 |
Amines |
5 |
10 |
1 |
Amines : Structure, Nomenclature, Preparation of Amines |
|
|
2 |
Physical Properties of Amines and Basicity of Aliphatic and Aromatic Amines |
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|
3 |
Chemical Reactions of Aliphatic and Aromatic Amines |
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|
4 |
Diazonium Salts |
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|
5 |
Problem Practise |
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|
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|
|
|
SUMMARY : Total Lecture : 5 |
|
|
8 |
Biomolecules |
4 |
8 |
1 |
Carbohydrates (Classification and Structure) |
|
|
2 |
Properties of Monosaccharides and Oligosaccharides |
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|
3 |
Amino Acid and Protein |
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|
4 |
Vitamins, DNA and Hormones |
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|
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|
SUMMARY : Total Lecture : 4 |
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|
Module - VI |
9 |
Coordination Compounds |
8 |
16 |
1 |
Definition of Some Important Terms Pertaining to Coordination Compounds |
|
2 |
Nomenclature of Coordination Compounds and Werner's Theory of Coordination Compounds, |
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|
3 |
Valence Bond Theory of Complex Compounds and EAN Rule |
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|
4 |
Crystal Field Theory |
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|
5 |
Isomerism in Coordination Compounds (Structural) |
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6 |
Isomerism in Coordination Compounds (Stereo) |
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|
7 |
Bonding in Metal Carbonyls & Organometallics |
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|
8 |
Stability of Coordination Compounds, Importance & Application of Coordination Compounds |
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SUMMARY : Total Lecture : 8 |
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|
10 |
The d & f-Block Elements |
5 |
10 |
1 |
General Properties of d-block Elements(01) |
|
|
2 |
General Properties of d-block Elements(02) |
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|
3 |
Preparation, Properties and Uses of KMnO4 and K2Cr2O7 |
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|
4 |
Some Important Compound of d-Block Elements |
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|
5 |
f-Block elements (General Characteristic) and Lanthanoids Contraction |
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SUMMARY : Total Lecture : 5 |
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|
11 |
The p-Block Elements |
4 |
8 |
1 |
Group-13 & 14 General Properties |
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|
2 |
Group-15 General Properties |
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|
3 |
Group-16 General Properties |
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|
4 |
Group-17 and 18 General Properties |
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|
|
|
|
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SUMMARY : Total Lecture : 4 |
|
|
12 |
Principle related to Practical Chemistry |
4 |
8 |
1 |
Detection of Elements and Functional Group, Chemistry of Mohr's Salt, Potashalum, Acetanilide, p-Nitroacetanilide, Aniline Yellow, Iodoform, Enthalphy of Nutralisation and Solution & Preparation of lyophilic and lypohobic Sols |
|
|
2 |
Salt Analysis-I - Introduction to Acidic & Basic Radicals |
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|
3 |
Salt Analysis-II - Acidic Radical Qualitative Analysis |
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|
4 |
Salt Analysis-III - Basic Radical Qualitative Analysis |
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|
|
|
SUMMARY : Total Lecture : 4 |
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TOTAL |
70 |
140 |
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Botany |
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Standard XII |
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|
Number of classes needed and total hours |
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|
Module |
Chapter Number |
Chapter Name |
No. of Classes |
Hr |
Lecture |
Lecture Content |
|
Module-IV |
1 |
Sexual Reproduction in flowering Plants |
9 |
18 |
1 |
Introduction(Reproduction, types of reproduction difference between
Asexual & Sexual reporduction Significance of Asexual &
Sexual Reproduction), Reporductive organ of Angiosperms i.e.
flower(Diagram,
floral whorls), Steps of sexual reproduction |
|
2 |
Pre-fertilisation, detailed study of stamen, Microsporangium and
pollen grain( with all required labelled diagrams) |
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|
3 |
Pre-fertilisation: detailed study of the pistil,
Megasporangium(Ovule) and Embryo sac ( With all required labelled
diagrams) |
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|
4 |
Pollination (Definition, kinds of pollination, pollinating Agents),
Wind Pollination, Water pollination, Insect pollination, Bird
pollination(Detailed study with examples) |
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|
5 |
Outbreeding devices(Explaination with suitable examples), Pollen
pistal Interaction, Artificial Hybridisation (with all required
diagrams) |
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|
6 |
Double fertilisation(All events with suitable labelled diagrams),
Questions based on double fertilisation |
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|
7 |
Post-fertilisation: Endosperm (development, types of endosperms),
Embryo (development stages with all suitable diagrams) |
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|
8 |
Post fertilisation: Seed (definition, types of seeds, structure of some seeds, conditions required for seed germination, seed dormany, seed viability, advantages of angiospermic seeds, Fruit(definition, types with examples), Illustration No: 22, 23 |
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|
9 |
Apomixis (definition, examples,types and advantages
),polyembryony |
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|
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|
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SUMMARY : Total Lecture : 10 |
|
|
2 |
Principles of Inheritance and variation |
10 |
20 |
1 |
Introduction(terminology-Genetics, Inheritance, variation,
Domestcation, genes, alleles), Father of genetics, Mendel's
Work |
|
|
2 |
Terminology-Homozygous, heterozygous, Hybrid-Monohybrid, dihybrid,
trihybrid etc, dominant and ressive traits, Punette square,
reciprocal cross, Monohybrid cross, dihybrid cross, Phenotypes,
genotypes, Inheritance
of one gene, Mendel's laws of inheritance(Law of dominance, Law of
segreation) |
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|
3 |
Inheritance of one gene: (Incomplete dominance, Co-domimance, multiple allelism. Pleiotropy, Illustration No: 8, 9, 10 |
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|
4 |
Inheritacne of two genes(Law of Independent Assortment), Back cross
and test cross, formula chart based on law's of inheritance |
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|
5 |
Chromosomal theory of inheritance (explaination with suitable
diagrams), Comparison between the behaviour of chromosomes and
genes, Experimental verification of CTI. |
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|
6 |
Linkage (term, examples, types) explanation of incomplete linkage
with crosses given by T.H. Morgan, Questions based on complete
linkage (Illustration No: 18, 19) |
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|
7 |
Sex-determination (Explaination of different methods with examples),
Sex-linked & Sex-influenced traits (definition &
examples) |
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|
8 |
Mutation (Detailed study with classification & significance),
Different types of mutations, Mutagens (definition types &
examples) |
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|
9 |
Genetic disorder : Mendalian disorders (Haemophillia,
colourblindness) |
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|
10 |
Pedigree analysis (Illustration No: 34, 35, 36) Chromosomal disorders
|
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|
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|
|
|
SUMMARY : Total Lecture : 10 |
|
Module-V |
3 |
Molecular basis of Inheritance |
10 |
20 |
1 |
Introduction( Watson and francis Crick), Nucleic Acid(DNA and RNA),
Strutural components of nucleic acid, Discovery of DNA, nature &
types of Bonds in Nucleic acid, difference between DNA and RNA,
Difference
between nucleosides and Nucleotides |
|
2 |
Double Helix structure of DNA (Salient features, discovery, suitable
diagrams), Central dogma, Packaging of DNA helix(Nucleosome model,
levels of packaging, use of NHC, types of chromatins) |
|||||
|
3 |
The search for gentic material(Transforming principle & its
biochemical characterisaton), Alfred Hershay and matha Chase
experiment |
|||||
|
4 |
Properties of genetic material (DNA vs RNA), RNA world, Introduction
of replication and experimental proof of semi-conservative nature of
DNA replication (By messelson and stahl's experiment, Introduction
of Taylor's experiment) |
|||||
|
5 |
Mechanism of DNA replication (Detailed study by using different
enzyme), Transcription (definition, template strand, labelled
detailed diargam of transcription unit) |
|||||
|
6 |
Definitions of regions of transcription unit (Promotor,
Structural gene, terminator) concept of coding, Non-coding strand
(Illustration No: 16, 17), RNA Polymerase, Concept of split gene
arrangement,
Mechanism of Transcription |
|||||
|
7 |
Post transcription in Eukaryotes, Types of RNA (mRNA, rRNA, structure
of tRNA) and their functions/uses during protein synthesis, Genetic
code (discovery, definition, salient features, codes for different
amino acids) |
|||||
|
8 |
Mutation in genetic codes, tRNA- the adapter molecule, Translation
(detailed mechanism) |
|||||
|
9 |
regulation of gene expression: regulation in Eukaryotes, regulation
in prokaryotes, explaination of the lac operon, Introduction of HGP
(Introduction, goals of HGP) |
|||||
|
10 |
HGP(Salient features of HGP, applications and future challenges), DNA
fingerprinting |
|||||
|
|
|
|
|
|
SUMMARY : Total Lecture : 10 |
|
|
4 |
Microbes in Human Welfare |
4 |
8 |
1 |
Introduction (Types of microbes, their growth anf their occurance,
examples of microbes), Microbes in Household products(Detailed study
with suitable examples) |
|
|
2 |
Microbes in Industrial products(Beverages formation, Antibiotics
formation, different chemcials, enzymes and other bioactive
molecules) |
|||||
|
3 |
Microbes in sewage treatment, Microbes in production of Biogas |
|||||
|
4 |
Microbes used as Biocontrol Agents, microbes used as biofertilizers
|
|||||
|
|
|
|
|
|
|
SUMMARY : Total Lecture : 4 |
|
Module VI |
5 |
Organisms and Populations |
5 |
10 |
1 |
Introduction (father of ecology in India), Termimology: Ecology, Population, Biome, Community, Adaptation (with examples), Biotic & Abiotic factors(with examples), conform and regulate(with examples), Homeostasis, Migrate, suspend (with examples), Four levels of biological organisation, Illustration no: 1, 2, 3 |
|
2 |
Populations(Population Attributes with suitable examples),
Terminology- Natality, Mortality, Immigration, emigration, |
|||||
|
3 |
Population growth (Population density & growth models)
exponential and logistic growth) |
|||||
|
4 |
Life History variation with suitable examples, Population
Interactions(Introduction & types), Detailed study of mutualism,
commensalism with suitable examples |
|||||
|
5 |
Population Interactions(Detailed study of predation, competition,
parasitism, Amensalism with suitable examples) |
|||||
|
|
|
|
|
|
SUMMARY : Total Lecture : 5 |
|
|
6 |
Ecosystem |
4 |
8 |
1 |
Introduction: Terminology- Ecosystem with types of ecosytem,
Stratification, standing crop, ecological niche, Functional aspects
of ecosystem(Only introduction), Examples of Biotic and Abiotic
components,
Explaination of complex interaction by using example of aquatic
ecosustem |
|
|
2 |
Productivity (definition, units),concept of primary and secondary
productivity, Concept of GPP and NPP, Annual net perimary
productivity of biosphere. |
|||||
|
3 |
Energy flow(Explaination by using different examples of food chain),
Food chain (examples, types), Food web (examples) |
|||||
|
4 |
Ecological Pyramids(Different types -explaination by using examples
of different types of ecosystems) |
|||||
|
|
|
|
|
|
SUMMARY : Total Lecture : 4 |
|
|
7 |
Biodiversity and conservation |
4 |
8 |
1 |
Introduction: Biodiversity (Definition, term, different types-
genetic, species and ecological diversity (Explaination with
suitable examples), Global diversity of invertebrates, Vertebrates
and plants (By
using pi-chart), Global species diversity and India's share in
global species diversity |
|
|
2 |
Different patterns of Biodiversity (Latitudinal gradients, species
area relationship explaination with suitable examples) |
|||||
|
3 |
Explaination of different experiments (eg. David tilman's
experiments) and Hypothesis (rivet popper hypothesis) to understand
the importance of species diversity to the ecosystem, Loss of
Biodiversity (all
essential data, sixth extinction, causes of biodiversity losses (The
evil quartet) |
|||||
|
4 |
Biodiversity Conservation(Reasons to conserve biodiversity, methods
to conserve biodiversity with suitable examples) ,The Earth summit
& the World summit. |
|||||
|
|
|
|
|
|
|
SUMMARY : Total Lecture : 4 |
|
|
|
Total |
46 |
92 |
|
|
|
Zoology |
||||||
|
Standard XII |
||||||
|
Number of classes needed and total hours |
||||||
|
Module No |
Chapter No. |
CHAPTER |
CLASSES NEEDED |
HOURS |
Lecture |
Sub Topic |
|
Module - 4 |
1 |
Human Reproduction |
7 |
14 |
Class 1 |
The Male Reproduction System |
|
Class 2 |
The Female Reproduction System |
|||||
|
Class 3 |
Events of Human Reproduction - Gametogenesis, Hormonal Control of Gametogenesis |
|||||
|
Class 4 |
Menstrual Cycle |
|||||
|
Class 5 |
Fertilisation-Capacitation, Sperm Penetration |
|||||
|
Class 6 |
Embryonic Development - Cleavage and Early Embryonic Development, Placenta |
|||||
|
Class 7 |
Pregnancy & Embryonic Development - Events in Gestation, Parturition, Lactation |
|||||
|
2 |
Reproductive Health |
3 |
6 |
Class 1 |
Reproductive Health: Problem & Strategies, Govt Policies and Programs of Family Planning, Population Stabilisation & Birth Control - Reasons and Measures to Control Population Explosion |
|
|
Class 2 |
Birth Control & Contraception - Methods of Contraception, MTP or Medical Termination of Pregnancy, Sexually Transmitted Infections |
|||||
|
Class 3 |
Infertility and it's Causes in Male and Female & Assisted Reproductive Technologies |
|||||
|
Module - 5 |
3 |
Evolution |
8 |
16 |
Class 1 |
Origin of Universe, Earth and Life, Theories of Origin of Life |
|
Class 2 |
Urey and Miller's Experiment, Evolution of Life Forms |
|||||
|
Class 3 |
Evidences of Evolution - Palaentological Evidences, Taxnomical Evidences, Connecting Links, Biochemistry and Cytology |
|||||
|
Class 4 |
Evidences of Evolution - Evidences from Morphology and Comparative Anatomy (Homologous, Analogous, Vestigeal Organs and Atavism), Divergent and Convergent Evolution |
|||||
|
Class 5 |
Evidences of Evolution - Embryological Evidences, Biogeographical Evidences |
|||||
|
Class 6 |
Theories of Organic Evolution - Lamarckism and Darwinism and Mutation Theory |
|||||
|
Class 7 |
Hardy-Weinberg Principles and Factors affecting HWP, Natural Selection |
|||||
|
Class 8 |
Modern Synthetic Theory, Brief Account on Human Evolution |
|||||
|
4 |
Human Health and Disease |
10 |
20 |
Class 1 |
Human Health & Diseases - Health, Classification of Diseases and Pathogens |
|
|
Class 2 |
Diseases Caused by Viruses |
|||||
|
Class 3 |
Diseases Caused by Bacteria |
|||||
|
Class 4 |
Diseases Caused by Protozoa, Helminthes and Fungi |
|||||
|
Class 5 |
Immunity: Non specific and specific Immunity |
|||||
|
Class 6 |
Immunity: Antigen, Antibody, Primary and Secondary Immune Response, Active and Passive Immunity |
|||||
|
Class 7 |
Vaccination and Immunisation, Types of Vaccines, Types of Grafts, Graft Rejection, Auto-Immune Disorder, Allergy, Limphoid Organs |
|||||
|
Class 8 |
AIDS |
|||||
|
Class 9 |
Cancer |
|||||
|
Class 10 |
Drug and Alcohol Abuse, Addiction, Dependence, Source of Drugs and
their Effect |
|||||
|
Module-6 |
5 |
Biotechnology : Principles and Processes |
5 |
10 |
Class 1 |
Principles of Biotechnology |
|
Class 2 |
Tools of recombinant DNA Technology |
|||||
|
Class 3 |
Vector |
|||||
|
Class 4 |
Process of recombinant technology (Upto PCR) |
|||||
|
Class 5 |
Process of recombinant technology (Upto downstream processing) |
|||||
|
6 |
Biotechnology and its Application |
4 |
8 |
Class 1 |
Biotechnology Application in Agriculture |
|
|
Class 2 |
Biotechnology Application in Medicine |
|||||
|
Class 3 |
Transgenic Animals |
|||||
|
Class 4 |
Ethical Issues |
|||||
|
TOTAL |
37 |
74 |
||||
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