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Physics |
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Standard XI |
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Number of Classes Needed and Total Hours |
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S. No |
Chapter No. |
CHAPTER |
CLASSES NEEDED |
HRS |
Class Sequence |
Sub Topic |
MODULE 1 |
1 |
Physical World and Measurements |
5 |
10 |
Class 1 |
Introduction , Scope and Excitement of Physics, Physical Quantities, Units |
Class 2 |
Dimensional Analysis |
|||||
Class 3 |
Applications and Limitations of Dimensional Analysis |
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Class 4 |
Significant Figures, Error Analysis, Error Analysis in Experiments |
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Class 5 |
Vernier Calipers, Screw Gauge |
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2 |
Baisc Mathematics and Vectors |
9 |
18 |
Class 1 |
Basic Trigonometry |
|
Class 2 |
Introduction to Coordinate Geometry and Logarithms |
|||||
Class 3 |
Basics of Differentiation |
|||||
Class 4 |
Double Differentiation and Application of Differentiation |
|||||
Class 5 |
Integration and Its Application |
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Class 6 |
Vector: Introduction and Basic Idea, Addition of Vectors |
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Class 7 |
Substration of Vectors and Vector Resolution |
|||||
Class 8 |
Dot Product of Vectors |
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Class 9 |
Cross Product of Vectors |
|||||
3 |
Motion in Straight Line |
5 |
10 |
Class 1 |
Introduction, Distance and Displacement, Average Speed and Average Velocity and Acceleration |
|
Class 2 |
Uniformly Accelerated Motion |
|||||
Class 3 |
Motion under Gravity, Non Uniformly Accelerated Motion |
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Class 4 |
Graphical Analysis of Motion |
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Class 5 |
Relative Motion in 1D |
|||||
4 |
Motion in a Plane |
5 |
10 |
Class 1 |
Introduction of Motion in a Plane |
|
Class 2 |
Projectile Motion : Range, Time of flight , Maximum Height |
|||||
Class 3 |
Equation of Trajectory and Horizontal Projectile |
|||||
Class 4 |
Circular Motion : Angular Displacement, Angular Velocity, Angular Acceleration |
|||||
Class 5 |
Circular Motion : Uniform Circular Motion, Relative Motion in 2D(Knowledge Enhancer) |
S. No |
Chapter No. |
CHAPTER |
CLASSES NEEDED |
HRS |
Class Sequence |
Sub Topic |
MODULE 2 |
5 |
Laws of Motion |
6 |
12 |
Class 1 |
Introduction, Aristotle's fallacy, The Law of Inertia, Newton's First Law of Motion, Newton's Second Law of Motion, Newton's Third Law of Motion, Conservation of Momemtum |
Class 2 |
Common Forces in Mechanics, Equilibrium of Forces |
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Class 3 |
Pulley-Block Problems, Spring Problems in Mechanics |
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Class 4 |
Frame of Reference(Pseudo Force) |
|||||
Class 5 |
Friction |
|||||
Class 6 |
Dynamics of Circular Motion |
|||||
6 |
Work, Power & Energy |
5 |
10 |
Class 1 |
Introduction to Work and Work done by Different Forces |
|
Class 2 |
Kinetic Energy, Work Energy Theorem |
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Class 3 |
The Concept of Potential Energy, Change in Potential Energy due to different Conservative Forces |
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Class 4 |
Conservation of Mechanical Energy, Vertical Circular Motion |
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Class 5 |
Power, Collisions (Elastic and Inelastic) |
|||||
7 |
System of Particles and Rotational Motion |
8 |
16 |
Class 1 |
Introduction, Centre of Mass (Position of COM) |
|
Class 2 |
Motion of Centre of Mass, Introduction of Moment of Inertia and Moment of Inertia of Discountinous Body |
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Class 3 |
Moment of Inertia of Countinous Body |
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Class 4 |
Parallel Axis Theorem and Perpendicular Axis Theorem, Radius of Gyration |
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Class 5 |
Centre of Gravity and Torque |
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Class 6 |
Angular Momemtum and Conservation of Angular Momentum |
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Class 7 |
Kinematics of Rotational Motion |
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Class 8 |
Dynamics of Rotational Motion, Rolling Motion (Knowledge Enhancer) |
|||||
8 |
Gravitation |
4 |
8 |
Class 1 |
Introduction, Kepler's Law, Universal Law of Gravitation, Gravitational Constant |
|
Class 2 |
Acceleration due to Gravity of Earth, Acceleration due to Gravity Below and Above the Surface of Earth |
|||||
Class 3 |
Gravitational Potential Energy |
|||||
Class 4 |
Escape Velocity, Earth Satellite |
S. No |
Chapter No. |
CHAPTER |
CLASSES NEEDED |
HRS |
Class Sequence |
Sub Topic |
MODULE 3 |
9 |
Mechanical Properties of Solids |
3 |
6 |
Class 1 |
Introduction, Stress and Strain, Hooke's Law, Stress Strain Curve |
Class 2 |
Elastic Moduli (Young's, Bulk and Shear Modulus) |
|||||
Class 3 |
Elastic Potential Energy in a Stretched Wire, Poison's Ratio, Application of Elastic Behaviour of Materials |
|||||
10 |
Mechanical Properties of Fluids |
5 |
10 |
Class 1 |
Introduction, Pressure, Pascal Law, Variation of Pressure with depth, Atmospheric Pressure and Gauge Pressure |
|
Class 2 |
Hydraulic Machines, Archimedes Principle |
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Class 3 |
Steamline flow, continuity Equation, Bernoulli's Equation |
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Class 4 |
Speed of Efflux (Torricelli's Law), Dynamic Lift, Viscosity, Stokes Law |
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Class 5 |
Surface Tension |
|||||
10 |
Thermal Properties of Matter |
4 |
8 |
Class 1 |
Introduction, Temperature and Measurement of Temperature, Ideal Gas Equation and Absolute Temperature, Thermal Expansion |
|
Class 2 |
Specific Heat Capacity, Calorimetry, Change of State (Triple Point), Latent Heat |
|||||
Class 3 |
Heat Transfer, Conduction |
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Class 4 |
Convection and Radation |
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11 |
Kinetic Theory |
2 |
4 |
Class 1 |
Introduction, Molecular Nature of Matter, Behaviour of gas, Kinetic Theory of Gas, Pressure of an ideal Gas, Kinetic Interpretation of Temperature |
|
Class 2 |
Degree of Freedom, Law of Equipartition of Energy, Molar Heat Capacity, Relation Between Cp, Cv and Gamma and Degree of Freedom, Mean Free Path |
|||||
12 |
Thermodynamics |
4 |
8 |
Class 1 |
Introduction, Thermal Equilibrium, Zeroth Law of Thermodynamics, Heat, Internal Energy and Work |
|
Class 2 |
First Law of Thermodynamics, Thermodynamics state variables and Equation of State |
|||||
Class 3 |
Thermodynamics Process |
|||||
Class 4 |
Second Law of Thermodynamics, Reversible and Irreversible Process (Carnot Engine and Heat Engine) (Knowledge Enhancer) |
|||||
13 |
Oscillations |
3 |
6 |
Class 1 |
Introduction, Periodic and Oscillatory Motion, Period and Frequency, Simple Harmonic Motion |
|
Class 2 |
Explanation of SHM by Uniform Circular Motion, Displacement, Velocity and Accleration of SHM, Force Law for SHM |
|||||
Class 3 |
Energy in SHM, Simple Pendulum, Oscillations of Spring Block System |
|||||
14 |
Waves |
4 |
8 |
Class 1 |
Introduction, Transverse and Longitudinal Waves, Displacement of a Particle in Progressive Wave, Amplitude and Phase, Wavelength and Angular Wave Number, Period, Angular Frequency and Frequency |
|
Class 2 |
Speed of a Travelling Wave, Speed of Transverse Wave on Stretched String, Speed of Longitudinal Wave (Sound) |
|||||
Class 3 |
Principle of Superposition of Wave, Reflection of Wave, Standing Wave (Normal Modes of Vibration in a String) |
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Class 4 |
Normal Modes of Vibration in Organ Pipe, Beats |
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TOTAL |
72 |
144 |
|
|
Chemistry |
||||||
Standard XI |
||||||
Number of Classes Needed and Total Hours |
||||||
Module |
Chapter No. |
Chapter Name |
Class Needed |
Hr |
Lecture Code |
Lecture Content |
Module-I |
1 |
Some Basic Concepts of Chemistry |
8 |
16 |
1 |
Nature and Classification of Matter, Properties of Matter and their Measurement: Mass and Weight, Volume, Density, Temperature, Uncertainty in Measurement: Scientific Notation, Addition and Subtraction, Multiplication and Division, Significant Figures, Dalton's Atomic Theory. |
2 |
Laws of Chemical Combination: Law of Conservation of Mass, Law of Definite Proportions, Law of Multiple Proportions, Gay lussac's Law of Gaseous Volumes, Avogadro's Law |
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3 |
Atomic Mass, Average Atomic Mass, Molecular Mass, Formula Mass, Percentage Composition, Empirical and Molecular Formula. |
|||||
4 |
Mole Concept and Concept of Limiting Reagent |
|||||
5 |
Concentration Terms: Mass Percentage, Mole Fraction, Molarity, Molality, Parts per Million. |
|||||
6 |
Stoichiometry and Stoichiometric Calculations. |
|||||
7 |
Concept of Equivalent Mass and Normality |
|||||
8 |
Acid Base Titrimetric Analysis |
|||||
|
SUMMARY : Total Lecture : 8 |
|||||
2 |
Structure of Atom |
7 |
14 |
1 |
Discovery of Fundamental Particles of Atom |
|
2 |
Particle Nature of Electromagnetic Radiation : Planck's Quantum Theory, Photoelectric Effect, Dual Behaviour of Electromagnetic Radiation. |
|||||
3 |
Bohr's Model of Hydrogen Atom, Explanation of Bohr's Model. |
|||||
4 |
Absorption and Emission Spectra, Line Spectrum of Hydrogen Atom |
|||||
5 |
Dual Behaviour of Matter, Heisenberg's Uncertainity Principle. |
|||||
6 |
Quantum Mechanics, Hydrogen Atom and the Schrodinger Equation, Orbitals and Quantum Numbers, Shapes of Atomic Orbitals |
|||||
7 |
Filling of Orbitals in Atom: Aufbau Principle, Pauli's Exclusion, Hunds Rule of Maximum Multiplicity, Electronic Configuration, Causes of Stability of Completely filled and half filled sub-shells. |
|||||
|
|
|
|
SUMMARY : Total Lecture : 7 |
Module |
Chapter No. |
Chapter Name |
Class Needed |
Hr |
Lecture Code |
Lecture Content |
Module-I |
3 |
Classification of Elements and Periodicity in Properties |
4 |
8 |
Class 1 |
Genesis of Periodic Classification, Modern Periodic Law and the Present Form of the Periodic Table. Nomenclature of Elements with Atomic numbers > 100, Electronic Configurations in Periods, Groupwise Electronic Configuration, s, p, d & f - block elements, Metals, Non-metals and metalloids |
Class 2 |
Effective Nuclear Charge, Sheilding Effect, Atomic and Ionic Radius, Periodic Trends of Atomic and Ionic |
|||||
Class 3 |
Ionisation Enthalpy, Electron Gain Enthalpy & Electron Affinity with their respective period trends |
|||||
Class 4 |
Electronegativity and its periodic trends, Applications of IE, EGE & E.N |
|||||
|
|
|
|
|
SUMMARY : Total Lecture : 4 |
|
4 |
Chemical Bonding and Molecular Structure |
8 |
16 |
1 |
Introduction to Bonding, Ionic or Electrovalent Bond, Electrovalency, Properties of Ionic Compounds |
|
2 |
Fajan’s Rule, Covalent Bonding, Formal Charge, Coordinate Bond |
|||||
3 |
Concept of Resonance, Valence Bond Theory, Hybridization |
|||||
4 |
Examples of Hybridization, VSEPR Theory |
|||||
5 |
Shapes of molecules using VSEPR Model, Bond Angles |
|||||
6 |
Dipole Moment and its examples, Polar & Non-Polar Compounds |
|||||
7 |
Molecular Orbital Theory (MOT) |
|||||
8 |
Van der Waals’ Forces, Hydrogen Bonding |
|||||
|
SUMMARY : Total Lecture : 8 |
|||||
Moduel II |
5 |
Thermodynamics |
9 |
18 |
1 |
Thermodynamic terms : System and surroundings, Types of system, The state of the system, The internal energy as a state function : Extensive and intensive properties. |
2 |
Work & Heat, First law of thermodynamics, Isothermal and free expansion of an ideal gas.Concept of work, |
|||||
3 |
Heat capacity, Relation between Cv & Cp for an ideal gas; Concepts of Internal energy and enthalpy |
|||||
4 |
Isothermal Reversible work, Isothermal adiabatic work and Irreversible work |
|||||
5 |
Calorimetry, enthalpy and thermo chemical equation. Hess's law of constant heat summation. Relation b/w DE and DH. |
|||||
6 |
Enthalpy of combustion, Atomization, Bond-dissociation, Solution, Lattice and neutralisation, Enthalpy of reaction. |
|||||
7 |
Spontaneity and entropy, Second law of thermodynamics. Free energy change and criteria for spontaneity, Entropy Change for Isothermal and Adiabatic Process, Entropy Change for Reaction |
|||||
8 |
Free Energy of Reaction, Gibb's Energy Change and Spontaneity of Reaction, Variation of Gibb's Energy and Equilibrium Constant |
|||||
9 |
Solved example of Thermodynamics |
|||||
|
|
|
|
|
SUMMARY : Total Lecture : 9 |
|
6 |
Chemical Equilibrium |
4 |
8 |
1 |
General Characteristics of equilibria involving physical and chemical process, Law of chemical equilibrium and equilibrium constant. |
|
2 |
Equilibrium Constant in Gaseous System, Relation Between Kc and Kp, Heterogeneous Equilibrium, Application of Equilibrium Constant |
|||||
3 |
Reaction quotient, Calculation of Equilibrium Concentration and Gibb's energy, degree of dissociation & Vapour density. |
|||||
4 |
factors affecting equilibria: Le-Chatelier Principle, Change in concentration, pressure, temperature and effect of catalyst and effect of addition of inert gas |
|||||
|
|
|
|
|
SUMMARY : Total Lecture : 4 |
|
7 |
Ionic Equilibrium |
6 |
12 |
1 |
Acids bases : Arrhenius, Bronsted-Lowry and Lewis concepts, Ionisation of acids and bases, Ionisation constant of water and its ionic product. |
|
2 |
pH Scale, pH of Strong Acid and Base and Mixture of Strong Acid and Base |
|||||
3 |
Common Ion Effect, Ionisation constants of weak acids and weak bases and pH of Weak Acids and Weak Bases |
|||||
4 |
Salt hydrolysis and pH |
|||||
5 |
Indicator and buffer solutions |
|||||
6 |
solubility product. And Solubility |
|||||
|
|
|
|
|
|
SUMMARY : Total Lecture : 6 |
Module |
Chapter No. |
Chapter Name |
Class Needed |
Hr |
Lecture Code |
Lecture Content |
Module-III |
8 |
Redox Reactions |
4 |
8 |
1 |
Oxidation number and its calculation, Fractional oxidation number, Types of redox reactions : Combination, decomposition, Displacement and disproportionation reactions |
2 |
n Factor of Oxidising and Reducing Agent, Discussion of KMNo4, K2Cr2O7 and H2C2O4 |
|||||
3 |
Balancing of redox reactions. |
|||||
4 |
Redox titrations, |
|||||
|
|
|
|
|
SUMMARY : Total Lecture : 4 |
|
9 |
Organic Chemistry : Some Basic Principles & Techniques |
13 |
26 |
1 |
Structure of Organic Compounds, Classification of Organic Compounds |
|
2 |
Nomenclature of Organic Compounds - 01 |
|||||
3 |
Nomenclature of Organic Compounds - 02 |
|||||
4 |
Structural Isomerism including Tautomerism |
|||||
5 |
Conformational Isomerism |
|||||
6 |
Geometrical Isomerism |
|||||
7 |
Optical Isomerism |
|||||
8 |
Fundamental concepts in organic reaction, Mechanism : Bond fission, Nucleophile and electrophile |
|||||
9 |
Inductive and electromeric effect |
|||||
10 |
Resonance and Mesomeric Effect |
|||||
11 |
Hyperconjugation & Aromaticity |
|||||
12 |
Purification of Organic Compounds, Qualitative Analysis of Organic Compounds (Elemental Detection Only) |
|||||
13 |
Quantitative Analysis of Organic Compounds |
|||||
|
|
|
|
|
SUMMARY : Total Lecture : 13 |
|
10 |
Hydrocarbons |
8 |
16 |
1 |
Introduction, Preparation of Alkanes |
|
2 |
Physical & Chemical Properties of Alkanes |
|||||
3 |
Preparation of Alkenes, Physical Properties of Alkenes |
|||||
4 |
Chemical Properties of Alkenes: Addition Reactions |
|||||
5 |
Chemical Properties of Alkenes: Oxidation & Substitution Reactions |
|||||
6 |
Alkynes: Preparation, Physical & Chemical Properties |
|||||
7 |
Preparation of Benzene & Alkyl Benzenes, Physical Properties of Aromatic Hydrocarbons, Chemical Properties of Benzene, Electrophilic Substitution Reaction on Benzene |
|||||
8 |
Electrophilic Substitution on Mono-Substituted Benzene, Directive Influence of Functional Groups, Carcinogenicity & Toxicity |
|||||
|
|
|
|
|
|
SUMMARY : Total Lecture : 8 |
|
|
|
Total Classes: 71 |
Total Hours: 142 |
|
|
Botany |
||||||
Standard XI |
||||||
Number of Classes Needed and Total Hours |
||||||
Module |
Chapter No. |
Chapter Name |
No. of Classes |
Hr |
Lecture Code |
Lecture Content |
Module-I |
1 |
Living World |
3 |
6 |
1 |
Introduction of Botany, Father of Botany, Basic terms in botany (Morphology, Anatomy, Genetics, Ecology, Physiology), Darwin of 20th century, What is living? [Characteristics of living organisms], Illustration No-1, 2, 3 |
2 |
Diversity in the living world (Biodiversity, Nomenclature, Classification Taxonomy, Systematics), Illustration No. 4, 5, 6 |
|||||
3 |
Taxonomic Categories(Taxa, Taxon/Rank, taxonomic hierarchy with examples), Organisms with their taxonomic categories (Man, Housefly, Mango, Wheat), Illustration No: 7, 8, 9, 10 |
|||||
SUMMARY : Total Lecture : 3 |
||||||
2 |
Biological Classification |
8 |
16 |
1 |
Earlier Classification (By Aristotle), Two kingdom system of classification, Five kingdom system of classification, Characteristics of the five kingdoms, Examples of Organisms placed in different kingdoms according to two kingdom and five kingdom classification, Illustration No. 1, 2 |
|
2 |
Kingdom Monera(Sole members and their salient features, Classification of Bacteria -according to shape, mode of nutrition and type of respiration), Structure of Bacterial cell (detailed structure w.r.f prokaryotic cell structure of cell chapter)Illustration No: 3, 4, 5, 6 |
|||||
3 |
Kingdom Monera: Classification of monera, Types and examples of Archeabacteria with their salient features, Types and examples of Eubacteria (like BGA, Mycoplasma) with their salient features. Illustration No: 7, 8, 9, 10 |
|||||
4 |
Kingdom Monera (Repoduction in Monerans- Binary fission, Exospores) methods of primitive type of DNA transfer-Transformation, Transduction, Conjugation- only introduction of these methods, Diseases caused by Bacteria, Uses of Bacteria, Illustration No: 11, 12, 13, 14 |
|||||
5 |
Kingdom Protista(Salient features of kingdom Protista, Classification of kingdom protista, Features of chrysophytes, Dinoflagellates, Euglenoids, Illustration No: 15, 16, 17 |
|||||
6 |
Kingdom Protista(Slime moulds, Protozoans), Kingdom fungi (Introduction salient feature of kingdom fungi), Illustration No: 18, 19, 20 |
|||||
7 |
Kingdom Fungi: Detailed Classification of fungi into Phycomycetes, Ascomycetes, Basidomycetes, Deuteromycetes), Examples of all classes of fungi & their comparative study, Illustration NO: 21, 22, 23, 24, 25 |
|||||
8 |
Viruses (Discovery, components of virus, Structure of virus, TMV, Bacteriophage, Examples of viral diseases, symptoms of viral disease in plants, living & non-living features in virus), Viroids(Discovery, features, Diseases), Prions(Features, diseases), Lichens(Features, Significance), Illustration No: 26, 27, 28, 29, 30 |
|||||
SUMMARY : Total Lecture : 8 |
Number of Classes Needed and Total Hours |
||||||
Module |
Chapter No. |
Chapter Name |
No. of Classes |
Hr |
Lecture Code |
Lecture Content |
Module-I |
3 |
Plant Kingdom |
7 |
14 |
1 |
Classification systems(Artificial, Natural, Phylogenetic), Types of Taxonomy(Cytotaxonomy, Chemotaxonomy , Numerical Taxonomy), Classification of kigdom plantae(Cryptogamae, Phanerogamae), Illustration No: 1, 2, 4 |
2 |
Algae(Salient features, Classification into different groups), Detailed study of chlorophyceae with examples, Illustration NO: 4, 5, 6 |
|||||
3 |
Algae(Detailed study of phaeophyceae, Rhodophyceae with suitable Examples), Comparative study of all 3 groups of Algae (in terms of Major pigments stored food, cell wall, flagella number, Habitat), Illustration No: 7, 8, 9, 10 |
|||||
4 |
Bryophytes: Salient features, Economic and ecological importance of Bryophytes, Illustration No: 11, 12, 13 |
|||||
5 |
Classification of Bryophyta(Comparative study of liverworts and mosses and their salient features with examples, their diagrams), Illustration No: 14, 15, 16 |
|||||
6 |
Pteridophytes(Detailed study and Salient features of pteridophytes, Examples & types of pteridophytes, Classifiaction of pteridophyta( examples of each class), Illustration NO: 17, 18, 19, 20 |
|||||
7 |
Gymnosperms: Salient feature of Gymnosperms with suitable examples, Comparative study of cycas & pinus, Classification of Gymnosperms(Name and examples of classes), Angiosperms (Only Introduction), Illustration No: 21, 22, 23, 24, 25 |
|||||
SUMMARY : Total Lecture : 7 |
||||||
4 |
Morphology of folowering Plants |
9 |
18 |
1 |
Introduction [Katherine Esau, different moRphological parts of plant], The root, (Types of the root, functions of the root, Regions of root, Modifications of root), Illustration No: 1, 2, 3 |
|
2 |
The stem(Nodes, Internodes, buds, functions of stem, Modification of stem), Illustration No: 4, 5, 6 |
|||||
3 |
The Leaf (Axillary bud, functions of the leaf) Structure of leaf, Arrangement of leaf, origin of leaf , Venation, types of leaves, Phyllotaxy, Modifications of leaves, Illustration No: 7, 8, 9, 10 |
|||||
4 |
The Inflorescence: Salient features and types of inflorescence with their examples, The flower (definition, floral whorls, types of flower based on symmetry, Floral appendages, position of floral parts on thalamus with examples), Illustration No: 11, 12, 13, 14 |
|||||
5 |
Parts of a flowers(Calyx, corolla) Definitation & types of Aestivation will examples, Androecium: structure ,types based on Adhesion & cohesion with examples, Illustration No: 15, 16, 17 |
|||||
6 |
Gynoecium (Structure & types), Placentation: definition, types & Examples, Fruit:Definition, types of fruits(True, false, and parthenocarpic), Drupe fruit- detailed study with examples, Illustration No: 18, 19, 20 |
|||||
7 |
The seed:(Definition, structure of monocot & dicot seeds, types of seeds with examples), Introduction of floral formula(symbols used in floral formula) & floral diagrams with examples (Brassicaceae), Illustration No: 21, 22, 23 |
|||||
8 |
Description of fabaceae (Leguminosae), Solanaceae families, Illustration No: 24, 25, 26 |
|||||
9 |
Description of compositae/Asteraceae, Malvaceae and Poaceae, Illustration No: 27, 28, 29, 30 |
|||||
SUMMARY : Total Lecture : 9 |
Number of Classes Needed and Total Hours |
||||||
Module |
Chapter No. |
Chapter Name |
No. of Classes |
Hr |
Lecture Code |
Lecture Content |
Module II |
5 |
Cell: the unit of life |
6 |
12 |
1 |
Introduction (G.N Ramachandran), Cell (Definition, discovery, cell theory), Overview of cell(Examples of cells based on different shapes), Prokaryotic cell (Only overview as detailed done in biological classification) gram staining, Illustration No: 1, 2, 3, 4 |
2 |
Eukaryotic cells: cell wall, cell membrane- fluid mosaic model, Structure of Animal and plant cell, Difference between animal and plant cell, Illustration No: 5, 6, 7 |
|||||
3 |
Endomembrane system(Endoplasmic reticulum, Golgi apparatus, Iysosomes, vacuoles), Illustration No: 8, 9, 10 |
|||||
4 |
Mitochondria(detailed study with Structure, functions), Plastids(detailed study with Structure, functions and types), Illustration No: 11, 12, 13 |
|||||
5 |
Ribosomes (Structure, Types, function), Cytoskeleton (Definition, functions), Cilia & Flagella (structure, function) Centrosome and centrioles, Illustration No: 14, 15, 16 |
|||||
6 |
Nucleus( detailed study with structure and functions), Chromosome: definition, structure and Type of chromosomes, Microbodies, Illustration Mo: 17, 18, 19, 20 |
|||||
SUMMARY : Total Lecture : 6 |
||||||
6 |
Cell Cycle & Cell Division |
4 |
8 |
1 |
Introduction(Cell Cycle, Phases of cell cycle), Interphase (Different stages), Illustration No: 1, 2, 3 |
|
2 |
M Phase: Introductrion, Mitosis (Detailed study with sutable diagrams), Illustration No: 4, 5, 6 |
|||||
3 |
Meiosis (all stages with diagrams), Meiosis -I, Meiosis-II, Illustration No: 7, 8, 9, 10 |
|||||
4 |
Questions based on cell cycle (Module Level-1 exercise), Comparision of mitosis & meiosis, Significance of mitosis & meiosis |
|||||
SUMMARY : Total Lecture : 4 |
||||||
7 |
Anatomy of Flowering Plants |
4 |
8 |
1 |
Introduction(Tissue -definition, Types) Meristematic tissues, simple permanent tissues, Comparison between simple & Complex permanent tissues, Illustration No: 1, 2, 3 |
|
2 |
Types of Complex tissues(Xylem & Phloem), Detailed study of Xylem & Phloem , Illustration No: 4, 5, 6 |
|||||
3 |
The tissue system: (Epidermal tissue system), Ground tissue system, Vascular tissue system), Illustation No: 7, 8, 9, 10 |
|||||
4 |
Anatomy of monocot & Dicot plants: (Anatomy of root, Anatomy of stem, Anatomy of leaf), Illustration No: 11, 12, 13, 14, 15 |
|||||
SUMMARY : Total Lecture : 4 |
Number of Classes Needed and Total Hours |
||||||
Module |
Chapter No. |
Chapter Name |
No. of Classes |
Hr |
Lecture Code |
Lecture Content |
Module-III |
8 |
Photosynthesi s in Higher Plants |
6 |
12 |
1 |
Introduction(Melvin calvin), Photosynthesis: a physico chemical process, Importance of photosynthesis, Essential requirements for photosynthesis explaination w.r.t given experiment, Early experiments(By Joseph priestly, Jan Ingenhousz, Julius von sachs, T.W. Engelmann, C. Van Niel), Illustration No: 1, 2, 3, 4 |
2 |
Site of Photosynthesis, Structure of a section of chloroplast, Photosynthetic pigments, Absorption and Action spectrum, Photosynthetic pigments, Photosystems (PSI & PS II), LHC & Reaction cente, Illustration no: 5, 6, 7, 8 |
|||||
3 |
Light reaction, Cyclic & non-cyclic photophosphorylation, The electron transport, Splitting of water, Illustration No: 9, 10 |
|||||
4 |
Chemiosmotic Hypothesis(detailed study with suitable diagram), ATP synthesis, Introduction of Biosynthetic phase (Purpose, use of products of light reaction, site). Illustration No: 11, 12 |
|||||
5 |
Biosynthetic Phase (Calvin Cycle, C4 Pathway), Calculation of used ATP & NADPH2 during Biosynthetic phase, Illustratin No: 13, 14, 15 |
|||||
6 |
Photorespiration, Law of limiting factors, Comparison between C3 & C4 plants, Illustration No: 16, 17, 18 |
|||||
SUMMARY : Total Lecture : 6 |
||||||
9 |
Respiration in Plants |
4 |
8 |
1 |
Introduction ( types of nutrition with examples,cellular respiration, respiratory substrates, energy currency of cell) gaseous exchange in plants, combustion, types of respiration with examples, glycolysis pathway illustration - 1,2,3 |
|
2 |
Questions based on Glycolysis, fermentation (detailed study with definition,types,examples,major pathways of anaerobic respiration), Introduction of Aerobic respiration (crucial events, link reaction) illustration - 4,5,6,7 |
|||||
3 |
Aerobic respiration(Krebs cycle) ,detailed study of ETS and oxidative phosphorylation. Illustration - 8,9,10 |
|||||
4 |
Respiratory balance sheet, amphibolic pathway, respiratory quotient, ATP calculation during respiration Illustration - 11,12,13,14 |
|||||
SUMMARY : Total Lecture : 4 |
||||||
10 |
Plant growth and Development |
5 |
10 |
1 |
introduction ( growth, determinate and indeterminate growth, open growth with example, seed germination and development in bean) |
|
2 |
Types of growth ( arithmetic and geomatric), Growth rates ( AGR and RGR), conditions for growth, |
|||||
3 |
Development, plasticity with examples, introduction of PGRs ( types, characteristics), chemical nature of |
|||||
4 |
Physiological effects of Auxins, Gibberellin Illustration - 10,11,12 |
|||||
5 |
Physiological effects of Cytokinins, Ethylene, Abscisic Acid Illustration - 13,14,15 |
|||||
SUMMARY : Total Lecture : 5 |
Zoology |
||||||
Standard XI |
||||||
Number of Classes Needed and Total Hours |
||||||
S. No |
Chapter No. |
CHAPTER |
CLASSES NEEDED |
HRS |
Class Sequence |
Sub Topic |
MODULE 1 |
1 |
Structural Organisation in Animals |
11 |
22 |
Class 1 |
Epithelial Tissue - Simple |
Class 2 |
Epithelial Tissue- Compound & Cell Junctions |
|||||
Class 3 |
Connective tissue- Areolar tissue, Adipose tissue, Dense Connective Tissue |
|||||
Class 4 |
Connective Tissue- Bone and Cartilage |
|||||
Class 5 |
Connective Tissue- Blood and Lymph |
|||||
Class 6 |
Muscle Tissue |
|||||
Class 7 |
Nervous Tissue |
|||||
Class 8 |
Morphology of Cockroach |
|||||
Class 9 |
Anatomy of Cockroach |
|||||
Class 10 |
Morphology of Frog |
|||||
Class 11 |
Anatomy of Frog |
|||||
2 |
Animal Kingdom |
11 |
22 |
Class 1 |
Kingdom Animalia, Basis of Classification |
|
Class 2 |
Phylum-Protozoa, Phylum Porifera |
|||||
Class 3 |
Phylum - Coelenterata (Cnidaria), Phylum Ctenophora |
|||||
Class 4 |
Phylum Platyhelminthes |
|||||
Class 5 |
Phylum Aschelminthes |
|||||
Class 6 |
Phylum Annelida |
|||||
Class 7 |
Phylum Arthropoda |
|||||
Class 8 |
Phylum Mollusca, Phylum Echinodermata |
|||||
Class 9 |
Phylum Hemichordata, Phylum Chordata- Subphylum Urochordata, Subphylum Cephalochordata |
|||||
Class 10 |
Subphylum Vertebrata- Cyclostomata, Pisces, Amphibia |
|||||
Class 11 |
Subphylum Vertebrata- Reptilia, Aves, Mammalia |
|||||
3 |
Biomolecules |
6 |
12 |
Class 1 |
How to Analyse Chemical Composition, Metabolites, Carbohydrates |
|
Class 2 |
Carbohydrates, Lipids |
|||||
Class 3 |
Amino Acids & Proteins |
|||||
Class 4 |
Nucleotides |
|||||
Class 5 |
Enzymes |
|||||
Class 6 |
Enzyme Inhibition and Enzyme Classification |
S. No |
Chapter No. |
CHAPTER |
CLASSES NEEDED |
HRS |
Class Sequence |
Sub Topic |
MODULE 2 |
4 |
Breathing and Exchange of Gases |
4 |
8 |
Class 1 |
Breathing & Exchange of Gases-Respiration, Human Respiratory System, Steps of Respiration |
Class 2 |
Mechanism of Breathing, Respiratory Volumes and Capacities |
|||||
Class 3 |
Exchange and Transport of Gases, Oxygen Haemoglobin dissociation Curve |
|||||
Class 4 |
Regulation of Respiration, Respiratory Disorders |
|||||
5 |
Body Fluids and Circulation |
4 |
8 |
Class 1 |
Body Fluids & Circulation- Types of Circulation, Blood, Blood Groups |
|
Class 2 |
Blood Clotting, Lymph, Circulatory Pathways, Arteries and Veins |
|||||
Class 3 |
Structure of Human Heart, Conduction of Heart Beat, Cardiac Cycle, Cardiac Ouput |
|||||
Class 4 |
Stroke Volume, ECG, Regulation of Heart Rate, Cardiovascular Disorders |
|||||
6 |
Excretory Products and Their Elimination |
6 |
12 |
Class 1 |
Excretion & Excretory Products |
|
Class 2 |
Human Excretory System, Structure of Nephron, Types of Nephron |
|||||
Class 3 |
Physiology of Urine Formation, Function of Kidney Tubules |
|||||
Class 4 |
Mechanism of Concentration of the Filtrate- Counter current mechanism, Urine Composition |
|||||
Class 5 |
Regulation of Kidney Function- via RAAS, ADH, ANF |
|||||
Class 6 |
Role of Other Organs in Excretion, Osmoregulation, Disorders of Excretory System, Haemodialysis |
|||||
MODULE 3 |
7 |
Locomotion and Movement |
5 |
10 |
Class 1 |
Locomotion & Movement- Types of Movement, Type of Muscles |
Class 2 |
Types of Muscles, Packaging Ultra-structure of Skeletal Muscle Fibre, Mechanism of Muscle Contraction & Relaxation, Types of Skeletal Muscles- Red Muscle and White Muscle. |
|||||
Class 3 |
Skeletal System- Axial Skeleton |
|||||
Class 4 |
Appendicular Skeleton |
|||||
Class 5 |
Joints, Musculoskeletal Disorders |
|||||
8 |
Neural Control & Coordination |
4 |
8 |
Class 1 |
Human Nervous System- Structure & types of neuron, Types of neuron, Packaging of nerve, Nerve Impulse transmission, Synaptic Transmission |
|
Class 2 |
Central Nervous System- Meninges, Forebrain, Limbic system |
|||||
Class 3 |
Central Nervous System- Midbrain, Ventricles, Hind Brain, Spinal Cord (brief) |
|||||
Class 4 |
Peripheral Nervous System-Autonomic Nervous System |
|||||
9 |
Chemical Coordination & Integration |
4 |
8 |
Class 1 |
Endocrine System, Hypothalamus, Pituitary |
|
Class 2 |
Thyriod, Parathyroid Gland, Thymus, Pineal gland |
|||||
Class 3 |
Adrenal Gland, Pancreas, Gonads, |
|||||
Class 4 |
Hormones of Heart Kidney Gastrointestinal Tract & Mechanism of Hormone Action |
|||||
|
|
TOTAL |
55 |
110 |
|
|
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