PHYSICS-XI CHEMISTRY-XI MATHEMATICS-XI BIOLOGY-XI
PHYSICS-XII CHEMISTRY-XII MATHEMATICS-XII BIOLOGY-XII

PHYSICS-XI

UNIT I: UNITS AND MEASUREMENTS

• Units of measurements
• System of Units
• S I Units
• Fundamental and Derived units
• Least count
• Significant figures
• Errors in measurements
• Dimensions of Physics quantities
• Dimensional analysis and its applications

UNIT II: KINEMATICS

• The frame of reference
• Motion in a straight line
• Position- time graph
• Speed and velocity
• Uniform and non-uniform motion
• Average speed and instantaneous velocity
• Uniformly accelerated motion
• Velocity-time
• Position-time graph
• Relations for uniformly accelerated motion-
• Scalars and Vectors
• Vector Addition and Subtraction
• Scalar and vector products
• Unit Vector
• Resolution of a Vector
• Relative Velocity
• Motion in a plane
• Projectile Motion
• Uniform Circular Motion

UNIT III: LAWS OF MOTION

• Force and inertia
• Newton’s First law of motion: Momentum
• Newton’s First law of motion: Newton’s Second Law of motion
• Impulses: Newton’s Third Law of motion
• Law of conservation of linear momentum and its applications
• Equilibrium of concurrent forces
• Static and Kinetic friction
• Laws of friction
• Rolling friction
• Dynamics of uniform circular motion
• Centripetal force
• Examples of circular motion (vehicle on level circular road, vehicle on banked road)

UNIT IV: WORK, ENERGY AND POWER

• Work done by a constant force and a variable force;
• Kinetic and potential energies
• Work-energy theorem
• Power
• The potential energy of spring conservation of mechanical energy
• Conservative and non-conservative forces
• Motion in a vertical circle
• Elastic and inelastic collisions in one and two dimensions

UNIT V: MOTION OF SYSTEM OF PARTICLES AND RIGID BODY

• Centre of the mass of a two-particle system
• Centre of the mass of a rigid body
• Basic concepts of rotational motion
• Moment of a force
• Torque
• Angular momentum
• Conservation of angular momentum and its applications
• The moment of inertia
• The radius of gyration
• Values of moments of inertia for simple geometrical objects
• Parallel and perpendicular axes theorems and their applications
• Equilibrium of rigid bodies
• Rigid body rotation and equations of rotational motion
• Comparison of linear and rotational motions

UNIT VI: GRAVITATION

• The universal law of gravitation
• Acceleration due to gravity and its variation with altitude and depth
• Kepler’s law of planetary motion
• Gravitational potential energy
• Gravitational potential
• Escape velocity
• Motion of a satellite
• Orbital velocity
• Time period and energy of satellite

UNIT VII: PROPERTIES OF BULK MATTER

• Elastic behaviour
• Stress-strain relationship
• Hooke’s Law
• Young’s modulus
• Bulk modulus
• Modulus of rigidity* Pressure due to a fluid column
• Pascal’s law and its applications
• Effect of gravity on fluid pressure
• Viscosity
• Stokes’ law
• Terminal velocity
• Streamline
• Turbulent flow
• Critical velocity
• Bernoulli’s principle and its applications
• Surface energy and surface tension
• Excess of pressure across a curved surface
• Angle of contact
• Application of surface tension - drops, bubbles, and
• Capillary rise
• Heat
• Temperature
• Thermal expansion
• Specific heat capacity
• Calorimetry
• Change of state
• Latent heat
• Heat tansfer conduction
• Convection and radiation

UNIT VIII: THERMODYNAMICS

• Thermal equilibrium
• Zeroth law of thermodynamics
• The concept of temperature. Heat, work, and internal energy
• The first law of thermodynamics
• Isothermal and adiabatic processes
• The second law of thermodynamics
• Reversible and irreversible processes

UNIT IX: BEHAVIOUR OF PERFECT GASES AND KINETIC THEORY OF GASES

• Equation of state of a perfect gas
• Work done on compressing a gas
• Kinetic theory of gases - assumptions
• The concept of pressure
• Kinetic interpretation of temperature
• RMS speed of gas molecules
• Degrees of freedom
• Law of equipartition of energy
• Applications to specific heat capacities of gases
• Mean free path
• Avogadro’s number

UNIT X: OSCILLATIONS AND WAVES

• Oscillations and periodic motion - time period
• Oscillations and periodic motion -frequency
• Oscillations and periodic motion - displacement as a function of time
• Periodic functions
• Simple harmonic motion (S.H.M.) and its equation’s phase
• Oscillations of a spring -restoring force and force constant: energy in S.H.M
• Kinetic and potential energies
• Simple pendulum - derivation of expression for its time period
• Wave motion
• Longitudinal and transverse waves
• Speed of travelling wave
• Displacement relation for a progressive wave
• Principle of superposition of waves
• Reflection of waves
• Standing waves in strings and organ pipes
• Fundamental mode and harmonics- Beats

PHYSICS-XII

UNIT I: ELECTROSTATICS

• Electric charges: Conservation of charge
• Electric charges: Coulomb’s law forces between two point charges
• Forces between multiple charges: superposition principle and continuous charge distribution
• Electric field
• Electric field due to a point charge
• Electric field lines
• Electric dipole
• Electric field due to a dipole
• Torque on a dipole in a uniform electric field
• Electric flux
• Gauss’s law
• Its applications to find field due to infnitely long uniformly charged straight wire
• Uniformly charged infinite plane sheet
• Uniformly charged thin spherical shell
• Electric potential and its calculation for a point charge
• Electric dipole and system of charges
• Potential difference
• Equipotential surfaces
• Electrical potential energy of a system of two point charges and of electric dipole in an electrostatic field
• Conductors and insulators
• Dielectrics and electric polarization
• Capacitors and capacitances
• The combination of capacitors in series and parallel
• Tapacitance of a parallel plate capacitor with and without dielectric medium between the plates
• Energy stored in a capacitor

UNIT II: CURRENT ELECTRICITY

• Electric current
• Drift velocity
• Mobility and their relation with electric current
• Ohm’s law
• Electrical resistance
• V-I characteristics of ohmic and non-ohmic conductors
• Electrical energy and power
• Electrical resistivity and conductivity
• Series and parallel combinations of resistors
• Temperature dependence of resistance
• Internal resistance
• Potential difference and emf of a cell
• A combination of cells in series and parallel
• Kirchhoffs raws and their applications
• Wheatstone bridge
• Metre Bridge

UNIT III: MAGNETIC EFFECTS OF CURRENT AND MAGNETISM

• Biot - Savart law and its application to current carrying circular loop
• Ampere’s law
• Its applications to infinitely long current carrying straight wire and solenoid
• Force on a moving charge in uniform magnetic and electric fields
• Force on a current-carrying conductor in a uniform magnetic field
• The force between two parallel currents carrying conductors-definition of ampere
• Torque experienced by a current loop in a uniform magnetic field: Moving coil galvanometer
• Torque experienced by a current loop in a uniform magnetic field: its sensitivity
• Conversion to ammeter and voltmeter
• Effect of temperature on magnetic properties

UNIT IV: ELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENTS

• Electromagnetic induction: Faraday’s law
• Induced emf and current
• Lenz’s Law
• Eddy currents
• Self and mutual inductance
• Alternating currents
• Peak and RMS value of alternating current/ voltage: reactance and impedance
• LCR series circuit
• Resonance
• Power in AC circuits
• Wattless current
• AC generator
• Transformer

UNIT V: ELECTROMAGNETIC WAVES

• Displacement current
• Electromagnetic waves and their characteristics
• Transverse nature of electromagnetic waves
• Electromagnetic spectrum(radio waves, microwaves, infrared, visible, ultraviolet. X-rays. Gamma rays)
• Applications of e.m. waves

UNIT VI: OPTICS

• Reflection of light
• Spherical mirrors
• Mirror formula
• Refraction of light at plane and spherical surfaces
• Thin lens formula
• Lens maker formula
• Total internal reflection and its applications
• Magnification
• Power of a Lens
• Combination of thin lenses in contact
• Refraction of light through a prism
• Microscope and Astronomical Telescope (reflecting and refracting ) and their magnifying powers
• Wave optics: wavefront and Huygens’ principle
• Laws of reflection and refraction using Huygens principle
• Interference
• Young’s double-slit experiment and expression for fringe width
• Coherent sources
• Sustained interference of light
• Diffraction due to a single slit
• Width of central maximum
• Polarization
• Plane-polarized light
• Brewster’s law
• Uses of plane-polarized light and Polaroid

UNIT VII: DUAL NATURE OF MATTER AND RADIATION

• Dual nature of radiation
• Photoelectric effect
• Hertz and Lenard’s observations
• Einstein’s photoelectric equation: particle nature of light
• Matter waves-wave nature of particle
• De Broglie relation

UNIT VIII: ATOMS AND NUCLEI

• Alpha-particle scattering experiment
• Rutherford’s model of atom
• Bohr model
• Energy level’s hydrogen spectrum
• Composition and size of nucleus
• Atomic masses
• Mass-energy relation
• Mass defect; binding energy per nucleon and its variation with mass number
• Nuclear fission
• Fusion

UNIT IX: ELECTRONIC DEVICES

• Semiconductors
• Semiconductor diode: I-V characteristics in forward and reverse bias,diode as a rectifier
• I-V characteristics of LED
• The photodiode
• Solar cell and Zener diode
• Zener diode as a voltage regulator
• Logic gates (OR. AND. NOT. NAND and NOR)

CHEMISTRY-XI

UNIT I: SOME BASIC CONCEPTS OF CHEMISTRY

• Matter and its nature
• Dalton’s atomic theory
• Concept of atom
• Molecule
• Element and compound: Laws of chemical combination
• Atomic and molecular masses
• Mole concept
• Molar mass
• Percentage composition
• Empirical and molecular formulae
• Chemical equations and stoichiometry

UNIT II: STRUCTURE OF ATOM

• Nature of electromagnetic radiation
• Photoelectric effect
• Spectrum of the hydrogen atom
• Bohr model of a hydrogen atom - its postulates
• Derivation of the relations for the energy of the electron and radii of the different orbits
• Limitations of Bohr’s model
• Dual nature of matter
• de Broglie’s relationship
• Heisenberg uncertainty principle
• Elementary ideas of quantum mechanics
• Quantum mechanics
• The quantum mechanical model of the atom
• Its important features
• Concept of atomic orbitals as one-electron wave functions: Variation of 𝚿 and 𝚿2 with r for ls and 2s orbitals
• Various quantum numbers (principal, angular momentum, and magnetic quantum numbers) and their significance
• Shapes of s, p, and d - orbitals
• Electron spin and spin quantum number
• Rules for filling electrons in orbitals - Aufbau principle
• Pauli’s exclusion principle and Hund’s rule
• Electronic configuration of elements, Extra stability of half-filled and completely filled orbitals’
• Extra stability of half-filled and completely filled orbitals’

UNIT III: CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES

• Modem periodic law and present form of the periodic table, s, p, d and f block elements
• Periodic trends in properties of elements atomic and ionic radii, ionization enthalpy, electron gain enthalpy, valence, oxidation states, and chemical reactivity

UNIT IV: CHEMICAL BONDING AND MOLECULAR STRUCTURE

• Kossel - Lewis approach to chemical bond formation
• The concept of ionic and covalent bonds
• Ionic Bonding: Formation of ionic bonds
• Factors affecting the formation of ionic bonds
• Calculation of lattice enthalpy
• Covalent Bonding
• Concept of electronegativity
• Fajan’s rule
• Dipole moment
• Valence Shell Electron Pair Repulsion (VSEPR) theory and shapes of simple molecules
• Quantum mechanical approach to covalent bonding: Valence bond theory - its important features
• The concept of hybridization involving s, p, and d orbitals
• Resonance
• Molecular orbital Theory - Its important features
• Molecular orbital Theory - LCAOs
• Molecular orbital Theory - Types of molecular orbitals (bonding, antibonding)
• Molecular orbital Theory - sigma and pi-bonds
• Molecular orbital Theory - Molecular orbital electronic configurations of homonuclear diatomic molecules
• Molecular orbital Theory - The concept of bond order, bond length, and bond energy
• Elementary idea of metallic bonding
• Hydrogen bonding and its application

UNIT V: CHEMICAL THERMODYNAMICS

• Fundamentals of thermodynamics: system and surroundings
• Fundamentals of thermodynamics:extensive and intensive properties
• Fundamentals of thermodynamics: state functions
• Fundamentals of thermodynamics: types of processes
• The first law of thermodynamics
• Concept of work
• Heat internal energy
• Enthalpy
• Heat capacity
• Molar heat capacity
• Hess’s laws of constant heat summation
• Enthalpies of bond dissociation
• Combustion formation
• Atomization
• Sublimation
• Phase transition
• Hydration
• Ionization and solution
• The second law of thermodynamics - Spontaneity of processes: ΔS of the universe and ΔG of the system as criteria for spontaneity
• ΔG° (Standard Gibbs energy change)
• Equiliribrium constant

UNIT VI: EQUILIBRIUM

• Meaning of equilibrium
• The concept of dynamic equilibrium
• Equilibria involving physical processes: Solid-liquid, liquid - gas and solid-gas equilibria
• Henry’s law
• General characteristics of equilibrium involving physical processes
• Equilibrium involving chemical processes: Law of chemical equilibrium
• Equilibrium constants (KP and KC) and their significance
• The significance of ΔG and ΔG° in chemical equilibrium
• Factors affecting equilibrium - concentration, pressure
• Temperature
• The effect of catalyst
• Le Chatelier’s principle
• Ionic equilibrium: Weak and strong electrolytes
• Ionic equilibrium: ionization of electrolytes
• Ionic equilibrium: various concepts of acids and bases (Arrhenius, Bronsted - Lowry and Lewis) and their ionization
• Ionic equilibrium: acid-base equilibria (including multistage ionization)
• Ionization constants
• Ionization of water
• pH scale
• Common ion effect
• Hydrolysis of salts and pH of their solutions
• The solubility of sparingly soluble salts
• Solubility products
• Buffer solutions

UNIT VII: REDOX REACTIONS

• Electronic concepts of oxidation and reduction
• Redox reactions
• Oxidation number
• Rules for assigning oxidation number
• Balancing of redox reactions
• Electrolytic and metallic conduction
• Conductance in electrolytic solutions
• Molar conductivities and their variation with concentration
• Kohlrausch’s law and its applications
• Electrochemical cells
• Electrolytic
• Galvanic cells
• Different types of electrodes
• Electrode potentials including standard electrode potential
• Half-cell and cell reactions
• Emf of a Galvanic cell and its measurement
• Nernst equation and its applications
• Relationship between cell potential and Gibbs’ energy change
• Dry cell and lead accumulator
• Fuel cells

UNIT VIII: ORGANIC CHEMISTRY: SOME BASIC PRINCIPLES AND TECHNIQUES

• Tetravalency of carbon: Shapes of simple molecules - hybridization (s and p)
• Classification of organic compounds based on functional groups: and those containing halogens, oxygen, nitrogen, and sulphur; Homologous series
• Isomerism
• Structural and stereoisomerism
• Nomenclature (Trivial and IUPAC)
• Covalent bond fission - Homolytic and heterolytic: free radicals, carbocations, and carbanions; stability of earbocations
• free radicals, electrophiles, and nucleophiles
• Electronic displacement in a covalent bond - Inductive effect, electromeric effect
• Resonance and hyperconjugation
• Common types of organic reactions - Substitution
• Common types of organic reactions - addition
• Common types of organic reactions - elimination
• Common types of organic reactions - rearrangement

UNIT IX: HYDROCARBONS

• Classification, isomerism, IUPAC nomenclature, general methods of preparation, properties, and reactions
• Classification
• Isomerism
• IUPAC nomenclature
• General methods of preparation
• Properties and reactions
• Alkanes - Conformations: Sawhorse and Newman projections (of ethane) Mechanism of halogenation of alkanes
• Alkenes - Geometrical isomerism: Mechanism of electrophilic addition
• Addition of hydrogen, halogens, water, hydrogen halides (Markownikoffs and peroxide effect)
• Ozonolysis and polymerization
• Alkynes - Acidic character: Addition of hydrogen, halogens, water, and hydrogen halides: Polymerization
• Aromatic hydrocarbons - Nomenclature
• Benzene - structure and aromaticity
• Mechanism of electrophilic substitution
• Mechanism of halogenationn
• Mechanism of nitration
• Friedel - Craft’s alkylation and acylation
• Friedel - directive influence of the functional group in monosubstituted benzene

CHEMISTRY-XII

UNIT I : SOLUTIONS

• Different methods for expressing the concentration of solution - molality
• Different methods for expressing the concentration of solution - molarity
• Different methods for expressing the concentration of solution - mole fraction
• Different methods for expressing the concentration of solution - percentage (by volume and mass both)
• The vapour pressure of solutions and Raoult’s law
• Ideal and non-ideal solutions, vapour pressure - composition, plots for ideal and non-ideal solutions
• Colligative properties of dilute solutions -a relative lowering of vapour pressure
• Depression of mass freezing point
• The elevation of boiling point
• Osmotic pressure
• Determination of molecular mass using colligative properties;
• Abnormal value of molar mass
• Van’t Hoff factor and its significance

UNIT II: ELECTROCHEMISTRY

• Electronic concepts of oxidation and reduction
• Redox reactions
• Oxidation number
• Rules for assigning oxidation number
• Balancing of redox reactions
• Electrolytic and metallic conduction
• Conductance in electrolytic solutions
• Molar conductivities and their variation with concentration
• Kohlrausch’s law and its applications
• Electrochemical cells
• Electrolytic
• Galvanic cells
• Different types of electrodes
• Electrode potentials including standard electrode potential
• Half-cell and cell reactions
• Emf of a Galvanic cell and its measurement
• Nernst equation and its applications
• Relationship between cell potential and Gibbs’ energy change
• Dry cell and lead accumulator
• Fuel cells

UNIT III: CHEMICAL KINETICS

• Rate of a chemical reaction
• Factors affecting the rate of reactions: concentration
• Factors affecting the rate of reactions: Temperature
• Factors affecting the rate of reactions: Pressure
• Factors affecting the rate of reactions: Catalyst
• Elementary and complex reactions
• Order and molecularity of reactions
• Rate law
• Rate constant and its units
• Differential and integral forms of zero and first-order reactions
• Their characteristics and half-lives
• The effect of temperature on the rate of reactions
• Arrhenius theory
• Activation energy and its calculation
• Collision theory of bimolecular gaseous reactions (no derivation)

UNIT IV: d - and f- BLOCK ELEMENTS

• Transition Elements General introduction
• Electronic configuration
• Occurrence
• Characteristics
• General trends in properties of the first-row transition elements - physical properties
• General trends in properties of the first-row transition elements - ionization enthalpy
• General trends in properties of the first-row transition elements - oxidation states
• Atomic radii
• Colour
• Catalytic behaviour
• Magnetic properties
• Complex formation
• Interstitial compounds
• Alloy formation
• Preparation, properties, and uses of K2CrO7
• Preparation, properties, and uses of KMnO4

UNIT V: COORDINATION COMPOUNDS

• Introduction to coordination compounds
• Werner’s theory
• Ligands
• Co-ordination number
• Denticity
• Chelation
• IUPAC nomenclature of mononuclear co-ordination compounds
• Isomerism
• Bonding-Valence bond approach and basic ideas of Crystal field theory
• Colour and magnetic properties
• Importance of co-ordination compounds (in qualitative analysis, extraction of metals and in biological systems)

UNIT VI: HALOALKANES AND HALOARENES

• General methods of preparation, properties, and reactions
• Nature of C-X bond
• Mechanisms of substitution reactions
• Uses
• Environmental effects of chloroform, iodoform, freons, and DDT

UNIT VII: ALCOHOLS, PHENOLS AND ETHERS

• General methods of preparation, properties, reactions, and uses
• Alcohols: Identification of primary, secondary, and tertiary alcohols: mechanism of dehydration
• Phenols: Acidic nature
• Electrophilic substitution reactions: halogenation
• Nitration and sulphonation. Reimer - Tiemann reaction
• Reimer - Tiemann reaction
• Ethers: Structure

UNIT VIII: ALDEHYDES, KETONES AND CARBOXYLIC ACIDS

• General methods of preparation, properties, reactions, and uses
• Aldehyde and Ketones
• Nature of carbonyl group
• Nucleophilic addition to >C=O group, relative reactivities of aldehydes and ketones
• Important reactions such as - Nucleophilic addition reactions (addition of HCN, NH3, and its derivatives)
• Grignard reagent
• Oxidation
• Reduction (Wolf Kishner and Clemmensen)
• The acidity of α-hydrogen
• Aldol condensation
• Cannizzaro reaction
• Haloform reaction
• Chemical tests to distinguish between aldehydes and Ketones
• Carboxylic Acids Acidic strength and factors affecting it

UNIT IX: ORGANIC COMPOUNDS CONTAINING NITROGEN AMINES

• General methods of preparation. Properties, reactions, and uses
• Amines: Nomenclature
• Amines: classification structure
• Amines: basic character
• Amines: identification of primary, secondary, and tertiary amines
• Amines: their basic character
• Diazonium Salts: Importance in synthetic organic chemistry

UNIT X: BIOMOLECULES

• General introduction and importance of biomolecules
• CARBOHYDRATES - Classification; aldoses and ketoses: monosaccharides (glucose and fructose)
• Constituent monosaccharides of oligosaccharides (sucrose, lactose, and maltose)
• PROTEINS - Elementary Idea of α-amino acids
• peptide bond, polypeptides
• Proteins:primary, secondary, tertiary, and quaternary structure (qualitative idea only)
• Denaturation of proteins
• enzymes
• VITAMINS — Classification and functions
• NUCLEIC ACIDS - Chemical constitution of DNA and RNA
• Biological functions of nucleic acids
• Hormones (General introduction)

MATHEMATICS-XI

UNIT I: SETS AND FUNCTIONS

• Sets and their representation: Union
• Sets and their representation: intersection
• Sets and their representation: complement of sets
• Sets and their representation: Power set
• Algebraic properties of sets
• Trigonometric Functions
• Trigonometrical identities and trigonometrical functions
• Inverse trigonometrical functions
• Properties of inverse trigonometrical functions

UNIT II: ALGEBRA

• Complex numbers and quadratic equations
• Introduction to Complex Numbers
• Complex numbers as ordered pairs of reals
• Representation of complex numbers in the form a + ib and their representation in a plane, modulus
• Algebra of complex number
• Argand diagram,and argument (or amplitude) of a complex number
• Quadratic equations in real system and their solutions Relations between roots and co-efficient
• Nature of roots
• The formation of quadratic equations with given roots
• Permutations and combinations
• The fundamental principle of counting
• Permutation as an arrangement and combination as selection
• Meaning of P (n,r) and C (n,r)
• Simple applications
• Binomial theorem
• Binomial theorem for a positive integral index
• General term and middle term
• Simple applications
• Sequence and series
• Arithmetic and Geometric progressions
• Insertion of arithmetic means between two given numbers
• Geometric means between two given numbers
• Relation between A.M and G.M

UNIT-III: COORDINATE GEOMETRY

• Straight line
• Various forms of equations of a line
• Angles between two lines
• Intersection of lines
• Conditions for concurrence of three lines
• The distance of a point from a line
• Co-ordinate of the centroid
• Orthocentre and
• Circumcentre of a triangle
• Circle
• Conic sections
• A standard form of equations of a circle
• The general form of the equation of a circle, its radius
• Central equation of a circle when the endpoints of a diameter are given
• Points of intersection of a line and a circle with the centre at the origin
• Sections of conics, equations of parabola in standard form
• Equations of ellipse in standard forms
• Equations of hyperbola in standard forms

UNIT-IV: CALCULUS

• Limits and derivatives:
• Functions
• Algebra of functions
• Rational
• Graphs of simple functions
• Polynomial function
• Trigonometric function
• Inverse function
• Limits
• Continuity and differentiability
• Differentiation of the sum, difference, product, and quotient of two functions
• Differentiation of trigonometric functions
• Logarithmic Functions & its Derivatives
• Differentiation of Exponential
• Inverse trigonometric
• Implicit functions
• Differentiation of composite function
• Derivatives of order up to two
• Rate of change of quantities
• Applications of derivatives
• Increasing and decreasing functions
• Maxima and minima of functions of one variable

UNIT-V STATISTICS AND PROBABILITY

Statistics:

• Measures of discretion
• Calculation of mean, median, mode of grouped and ungrouped data
• Mean deviation for grouped and ungrouped data
• Calculation of standard deviation, variance, for grouped and ungrouped data
• Probability:
• Probability of an event
• Addition theorems of probability
• Multiplication theorems of probability
• Baye’s theorem, probability distribution of a random variate

MATHEMATICS-XII

UNIT I: RELATIONS AND FUNCTIONS

Relations function

• Relation
• Type of relations, equivalence relations
• One-one, into and onto functions
• The composition of functions
• Trigonometrical functions:
• Trigonometrical identities and trigonometrical functions
• Inverse trigonometrical functions
• Properties of inverse trigonometrical functions

UNIT II: ALGEBRA

Matrices and determinants

• Matrices
• Algebra of matrices
• Type of matrices
• Matrices of order two and three
• Determinants
• Evaluation of determinants
• Adjoint
• Evaluation of inverse of a square matrix using determinants
• Area of triangles using determinants
• Test of consistency
• Solution of simultaneous linear equations in two or three variables using matrices

UNIT III: CALCULAS

• Integral as an anti-derivative
• Fundamental theorem of calculus
• Fundamental integral involving algebraic, trigonometric, exponential, and logarithms functions
• Integrations by substitution
• Integration by parts and by partial fractions
• Integration using trigonometric identities
• Evaluation of simple integrals of the type ∫ 𝑑𝑥 𝑥 2+𝑎2 , ∫ 𝑑𝑥 √𝑥 2 ± 𝑎2 , ∫ 𝑑𝑥 𝑎2− 𝑥 2 , ∫ 𝑑𝑥 √𝑎2− 𝑥 2 , ∫ 𝑑𝑥 𝑎𝑥2+𝑏𝑥+𝑐 ,∫ 𝑑𝑥 √𝑎𝑥2+ 𝑏𝑥+𝑐 , ∫ (𝑝𝑥+𝑞)𝑑𝑥 𝑎𝑥2+𝑏𝑥+𝑐 , ∫ (𝑝𝑥+𝑞)𝑑𝑥 √𝑎𝑥2+ 𝑏𝑥+𝑐
• Evaluation of simple integrals of the type ∫ √𝑎 2 ± 𝑥 2 𝑑𝑥 , ∫√𝑥 2 − 𝑎 2 𝑑𝑥
• The properties of definite integrals
• Evaluation of definite integrals
• Determining areas of the regions bounded by simple curves in standard form
• Derivatives, continuity, and differentiability
• Functions
• Algebra of functions
• Rational
• Graphs of simple functions
• Polynomial function
• Trigonometric function
• Inverse function
• Limits
• Continuity and differentiability
• Differentiation of the sum, difference, product, and quotient of two functions
• Differentiation of trigonometric functions
• Logarithmic Functions & its Derivatives
• Differentiation of Exponential
• Inverse trigonometric
• Implicit functions
• Differentiation of composite function
• Derivatives of order up to two
• Rate of change of quantities
• Applications of derivatives
• Increasing and decreasing functions
• Maxima and minima of functions of one variable

UNIT IV: VECTOR AND THREE-DIMENSIONAL GEOMETRY

• Vectors and scalars, the addition of vectors
• Components of a vector in two dimensions and threedimensional space
• Scalar products
• Vector products
• Coordinates of a point in space
• Directions ratios and direction cosines
• The angle between two intersecting lines
• The distance between two points, section formula
• Skew lines
• The shortest distance between them Skew lines
• The shortest distance between them, and its equation
• Equations of a line

UNIT-V: LINEAR PROGRAMMING

• Introduction
• Definition of related terminology such as constraints
• Objective function
• Optimization
• Different types of linear programming (L.P.) problems
• Mathematical formulation of L.P. problems
• Graphical method of solution for problems in two variables
• Feasible and infeasible regions
• Feasible and infeasible solutions
• Optimal feasible solutions (up to three non-trivial constraints)

UNIT VI: PROBABILITY

• Probability of an event
• Addition theorems of probability
• Multiplication theorems of probability
• Baye’s theorem, probability distribution of a random variate

BIOLOGY-XI

UNIT I: DIVERSITY OF LIVING ORGANISMS

What is living? ;

• The Living World: What is living?
• Biodiversity
• Need for classification
• Taxonomy & Systematics
• Concept of species and taxonomical hierarchy
• Binomial nomenclature
• Biological Classification: Five kingdom classification
• Salient features and classification of Monera
• Protista and Fungi into major groups
• Lichens
• Viruses and Viroids
• Plant Kingdom: Salient features and classification of plants into major groups-Algae, Bryophytes, Pteridophytes, Gymnosperms (three to five salient and distinguishing features and at least two examples of each category)
• Animal Kingdom: Salient features and classification of animals-nonchordate up to phyla level and chordate up to classes level (three to five salient features and at least two examples)

UNIT II: STRUCTURAL ORGANISATION IN ANIMALS AND PLANTS

• Morphology and modifications
• Tissues
• Anatomy and functions of different parts of flowering plants
• Stem
• Root
• Leaf
• Inflorescence- cymose and recemose
• Flower
• Fruit
• Seed (To be dealt along with the relevant practical of the Practical Syllabus)
• Family (malvaceae, Cruciferae, leguminoceae, compositae, graminae)
• Animal tissues
• Morphology, anatomy and functions of different systems(digestive, circulatory, respiratory, nervous and reproductive)

UNIT III: CELL: STRUCTURE AND FUNCTION

• Cell theory and cell as the basic unit of life
• Structure of prokaryotic and eukaryotic cell
• Plant cell and animal cell
• Cell membrane, cell wall,Cell envelope
• Cell organelles structure and function
• Endomembrane system-endoplasmic reticulum, Golgi bodies
• Lysosomes
• Vacuoles
• Mitochondria
• Ribosomes
• Plastids
• Micro bodies
• Cytoskeleton
• Cilia, flagella
• Centrioles
• Nucleus-nuclear membrane, chromatin,(ultra structure and function)
• Nucleolus
• Chemical constituents of living cells
• Biomolecules-structure
• Function of proteins
• Carbodydrates
• Lipids, nucleic acids
• Enzymes-types, properties, enzyme action, classification and nomenclature of anzymes
• B Cell division
• Cell cycle, mitosis
• Meiosis and their significance

UNIT IV: PLANT PHYSIOLOGY

• Photosynthesis
• Photosynthesis as a means of Autotrophic nutrition
• Site of photosynthesis take place
• Pigments involved in Photosynthesis
• Elementary idea
• Photochemical
• Biosynthetic phases of photosynthesis
• Cyclic and non cyclic and photophosphorylation
• Chemiosmotic hypothesis
• Photorespiration C3 and C4 pathways
• Factors affecting photosynthesis
• Respiration
• Exchange gases
• Cellular respiration-glycolysis
• fermentation (anaerobic)
• TCA cycle and electron transport system (aerobic)
• Energy relations-Number of ATP molecules generated
• Amphibolic pathways
• Respiratory quotient
• Plant growth and development
• Seed germination
• Phases of Plant growth and plant growth rate
• Conditions of growth, Differentiation, dedifferentiation and redifferentiation
• Sequence of developmental process in a plant cell
• Growth regulatorsauxin, gibberellin, cytokinin, ethylene, ABA

UNIT V: HUMAN PHYSIOLOGY

• Breathing and Respiration
• Respiratory organs in animals (recall only)
• Respiratory system in humans
• Mechanism of breathing and its regulation in humans-Exchange of gases
• Transport of gases
• Regulation of respiration Respiratory volumes
• Disorders related to respiration-Asthma
• Emphysema, Occupational respiratory disorders
• Body fluids and circulation
• Composition of blood, blood groups, coagulation of blood
• Composition of lymph and its function
• Human circulatory system-Structure of human heart
• Blood vessels
• Cardiac cycle, cardiac output, ECG
• Double circulation
• Regulation of cardiac activity
• Disorders of circulatory system-Hypertension
• Coronary artery disease, Angina pectoris, Heart failure
• Excretory products and their elimination
• Modes of excretion- Ammonotelism
• Modes of excretion- ureotelism
• Modes of excretion- uricotelism
• Human excretory system-structure and fuction
• Urine formation
• Osmoregulation
• Regulation of kidney function-Renin
• Angiotensin
• Atrial Natriuretic Factor, ADH and Diabetes insipidus
• Role of other organs in excretion
• Disorders
• Uraemia, Renal failure, Renal calculi, Nephritis
• Dialysis and artificial kidney
• Locomotion and Movement: Types of movement
• Ciliary, fiagellar, muscular
• Skeletal muscle-contractile proteins
• Muscle contraction
• Skeletal system and its functions(To be dealt with the relevant practical of Practical syllabus)
• Joints
• Disorders of muscular and skeletal system
• Myasthenia gravis, Tetany, Muscular dystrophy
• Arthritis, Osteoporosis, Gout
• Neural control and coordination
• Neuron and nerves
• Nervous system in humans central nervous system
• Peripheral nervous system and visceral nervous system
• Generation and conduction of nerve impulse
• Chemical coordination and regulation
• Endocrine glands and hormones
• Human endocrine system
• Hypothalamus, Pituitary
• Pineal, Thyroid, Parathyroid, Adrenal, Pancreas, Gonads
• Mechanism of hormone action (Elementary Idea)
• Role of hormones as messengers and regulators
• Hypo-and hyperactivity and related disorders
• Common disorders e.g. Dwarfism
• Acromegaly
• Cretinism
• Goiter
• Exopthalmic goiter
• Diabetes
• Addison’s disease (Imp: Diseases and disorders mentioned above to be dealt in brief)

BIOLOGY-XII

UNIT I: REPRODUCTION

• Sexual reproduction in flowering plants
• Flower structure
• Development of male and female gametophytes
• Pollination-types, agencies and examples
• Outbreeding devices
• Pollen-Pistil interaction
• Double fertilization
• Post fertilization events- Development of endosperm and embryo
• Development of seed and formation of fruit
• Special modes apomixis parthenocarpy, polyembryony
• Significance of seed and fruit formation
• Human Reproduction
• Male and female reproductive systems
• Microscopic anatomy of testis and ovary
• Gametogenesis-spermatogenesis
• Oogenesis
• Menstrual cycle
• Fertilisation *Embryo development upto blastocyst formation
• Implantation
• Pregnancy and placenta formation
• (Elementary idea) Parturition (Elementary idea)
• Lactation (Elementary idea)
• Reproductive health: Need for reproductive health and prevention of sexually transmitted diseases (STD)
• Birth control-Need and Methods, Contraception and Medical Termination of Pregnancy (MTP)
• Amniocentesis
• Infertility and assisted reproductive technologies — IV F, ZIFT, GIFT (Elementary idea for general awareness)

UNIT II: GENETICS AND EVOLUTION

• Heredity and variation: Mendelian Inheritance
• Deviations from Mendelism
• Incomplete dominance
• Co-dominance
• Multiple alleles
• Inheritance of blood groups
• Pleiotropy
• Elementary idea of polygenic inheritance
• Chromosome theory of inheritance
• Chromosomes and genes
• Sex determination
• In humans
• Birds
• Honey bee
• Linkage and crossing over
• Sex linked inheritance
• Haemophilia
• Colour blindness
• Mendelian disorders in humans
• Thalassemia
• Chromosomal disorders in humans
• Down’s syndrome
• Turner’s
• Klinefelter’s syndromes
• Molecular basis of Inheritance
• Search for genetic material
• DNA as genetic material
• Structure of DNA
• RNA
• DNA packaging
• DNA replication
• Central dogma
• Transcription
• Genetic code
• Translation
• Gene expression and regulation- Lac Operon
• Genome and human genome project
• DNA finger printing
• Protein biosynthesis
• Evolution: Origin of life
• Biological evolution and evidences for biological evolution from Paleontology, comparative anatomy, embryology and molecular evidence
• Darwin’s contribution
• Modern Synthetic theory of Evolution
• Mechanism of evolution
• Variation
• (Mutation and Recombination) and
• Natural Selection with examples
• Types of natural selection; Gene flow and genetic drift; Hardy-Weinberg’s principle
• Adaptive Radiation
• Human evolution

UNIT III: BIOLOGY AND HUMAN WELFARE

• Health and Disease; Pathogens
• Parasites causing human diseases
• (Malaria, Filariasis, Ascariasis. Typhoid, Pneumonia, common cold, amoebiasis, ring worm
• Dengue, chikungunya
• Basic concepts of immunology
• Vaccines
• Cancer, HIV and AIDS
• Adolescence, drug and alcohol abuse.Tobacco abuse
• Strategies for Enhancement in Food Production Improvement in food production: Plant breeding, tissue culture, single cell protein, Biofortification, Apiculture and Animal husbandry
• Microbes in human welfare
• In household food processing, industrial production, sewage treatment, energy generation
• As biocontrol agents and biofertilizers

UNIT IV: BIOTECHNOLOGY AND ITS APPLICATIONS

• Principles and process of Biotechnology
• Genetic engineering (Recombinant DNA technology)
• Application of Biotechnology in health and agriculture
• Human insulin
• Vaccine production
• Gene therapy
• Genetically modified organisms-Bt crops
• Transgenic Animals
• Biosafety issues-Biopiracy and patents

UNIT V: ECOLOGY AND ENVIRONMENT

• Organisms and environment Population interactions mutualism, competition. predation, parasitism
• Population attributes-growth, birth rate and death rate, age distribution
• Ecosystem: Patterns, components; productivity and decomposition; Energy flow; Pyramids of number, biomass, energy
• Biodiversity and its conservation
• Concept of Biodiversity
• Patterns of Biodiversity
• Importance of Biodiversity
• Loss of Biodiversity, Biodiversity conservation
• Hotspots, endangered organisms, extinction, Red Data Book, biosphere reserves, National par s and sanctuaries, Sacred Groves
• Environmental Issues: Air pollution and its control
• Water pollution and its control
• Agrochemicals and their effects
• Solid waste management
• Radioactive waste management
• Greenhouse effect and climate change impact and mitigation
• Ozone layer depletion
• Deforestation
• Any one case study as success story addressing environmental issue(s)