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CBSE- Grade 10 Physics Syllabus

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The search of class 10 students to find class 10 Physics syllabus has come to an end,this learning brings comprehensive material for cbse students to help improve their performances in class 10 board exams. Students must be updated with the latest cbse syllabus and compare with the previous years syllabus to know which are the chapters and units that are added and whether any concepts are eliminated.


TOPICS

  1. Light reflection and refraction
  2. Human eye and colorful world
  3. Electricity
  4. Magnetic effect of electric current
  5. Sources of energy
  6. Management of Natural Resources

1.A. Reflection of light
1.B. Spherical mirrors: Formation of image
1.C. Uses of spherical mirrors
1.D. Mirror formula and magnification
1.E. Refraction of light
1.F. Refraction by spherical lenses
1.G. Lens formula and magnification – Power of lens

2.A. The human eye
2.B. Power of accommodation
2.C. Why do we have two eyes
2.D. Defects of vision and its correction: myopia
2.E. Defects of vision and its correction: Hypermetropia
2.F. Defects of vision and its correction: Presbyopia
2.G. Defects of vision and its correction: Astigmatism
2.H. Refraction of light through prism
2.I. Dispersion of white light through glass prism
2.J. Atmospheric refraction
2.H. Scattering of light
3.A. Electric current and circuits
3.B. 
3.C. Circuit diagram
3.D. Ohm’s law
3.E. Factors on which the resistance of conductor depends
3.F. Resistance of a system of resistors
3.G. Heating effect of electric current
3.H. Electric power

4.A. Magnetic field and field lines
4.B. Magnetic field due to current carrying conductors
4.C. Force on current carrying conductor in electric field
4.D. Electric motor
4.E. Electromagnetic induction
4.F. Domestic electric circuits
5.A. What is a good source of energy
5.B. Conventional sources of energy: fossil fuels
5.C. Conventional sources of energy: Hydro power plant
5.D. Alternate or non- conventional sources of energy: Biomass bio-gas
5.E. Non Conventional Sources of Energy -Ocean Thermal Energy
5.F. Non Conventional Sources of Energy -Solar Energy – Photo voltaic Cell
5.G. Non Conventional Sources of Energy – Tidal Energy
5.H. Non Conventional Sources of Energy – Geothermal Energy
5.I. Non Conventional Sources of Energy – Ocean Thermal Energy
5.J. Environmental consequences
5.K. How long will an energy source last us
6.A. Save the Environment from Environmental Pollution – Reuse
6.B. Save the Environment from Environmental Pollution – Reduce
6.C. Save the Environment from Environmental Pollution – Recycle
6.D. Why do we need to manage our natural resources
6.E. Forest and wildlife
6.F. Sustainable management
6.G. Water for all : dam
6.H. Water harvesting
6.I. Coal and petroleum
6.J. An overview of natural resource management
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CBSE- Grade 12 Biology Syllabus

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Students having trouble with tough biology chapters who wish to score better in their biology exams can refer to our free NCERT solutions which give students all that is necessary to prepare for their examinations and solve various math related problems. All that students need to do is go through these CBSE Class 12 biology syllabus and NCERT books and solve the questions and exercises given in each chapter. Students can be assured of positive results. NCERT text books can be very helpful for students in achieving maximum marks in their examinations.

Some of the topics covered are:


TOPICS

  1. Reproduction in Organism</strong
  2. Sexual Reproduction in Flowering Plants
  3. Human Reproduction
  4. Reproductive Health
  5. Principle of Inheritence and Variation
  6. Molecular Basis of Inheritence
  7. Evolution
  8. Human Health and Disease
  9. Strategies for Enhancement in Food Production
  10. Microbes in Human Welfare
  11. Biotechnology: Principle and Processes
  12. Biotechnology and Its Application
  13. Organisms and Populations
  14. Ecosystem
  15. Biodiversity and Conservation
  16. Environmental Issues

1.A. Asexual reproduction
1.B. Sexual reproduction

2.A. Flower- a fascinating organ of angiosperm
2.B. Pre-fertilisaiton- structures and events: stamen, microsporangium and pollen grain
2.C. The pistil, megasporangium (ovule) and embryo sac
2.D. Pollination
2.E. Agents of pollination
2.F. Outbreedings devices and pollen-Pistil interaction
2.G. Artificial hybridisation
2.H. Double fertilization
2.I. Post fertilization events-Development of endosperm and embryo
2.J. Seed
2.K. Apomixis and polyembryony
3.A. The male reproductive system
3.B. The female reproductive system
3.C. Gametogenesis
3.D. Menstrual cycle
3.E. Fertilisation and implantation
3.F. Pregnancy and embryogenic development, parturition and lactation
4.A. Reproductive health- problems and strategies
4.B. Population explosion and birth control
4.C. Medical treatment of pregnancy
4.D. Sexually transmitted diseases
4.E. Infertility
5.A. Mendel’s law of inheritance
5.B. Inheritance of one gene
5.C. Law of dominance and segregation
5.D. Incomplete dominance
5.E. Co-dominance
5.F. Inheritance of two genes
5.G. Law of independent assortment
5.H. Chromosomal theory of inheritance
5.I. Linkage and recombination
5.J. Sex determination in humans
5.K. Mutation
5.L. Genetic disorder: pedigree analysis
5.M. Mendelian disorder
5.N. Chromosomal disorders
6.A. The DNA: structure of polynucleotide chain
6.B. Packaging of DNA helix
6.C. The search for genetic material: transforming principle
6.D. The genetic material is DNA
6.E. Properties of genetic material (DNA vs RNA)
6.F. RNA world
6.G. Replication
6.H. The machinery and enzymes
6.I. Transcription
6.J. Genetic code
6.K. Mutations and genetic code, tRNA
6.L. Translation
6.M. Regulation of gene operation- Lac Operon
6.N. Human genome project
6.O. DNA fingerprinting
7.A. Origin of life
7.B. Evolution of life form- a theory
7.C. What are the evidences for evolution
7.D. What is adaptive radiation
7.E. Biological evolution
7.F. Mechanism of evolution, Hardy Weinberg principle
7.G. A brief account of evolution
7.H. Origin and evolution of man
8.A. Common diseases in human
8.B. Immunity: innate immunity
8.C. Acquired immunity
8.D. Active and passive immunity
8.E. Vaccination and immunisation
8.F. Allergies and autoimmunity
8.G. Immunity system in the body
8.H. AIDS
8.I. Cancer
8.J. Drugs and alcohol abuse
8.K. Prevention and control
9.A. Animal husbandy
9.B. Plant breeding
9.C. Biofortification
9.D. Single cell protein
9.E. Tissue culture
10.A. Microbes in household product and industrial products
10.B. Microbes in sewage treatment
10.C. Microbes in the production of biogas
10.D. MMicrobes in biocontrol agents
10.E. Microbes as biofertilisers
11.A. Principle of biotechnology
11.B. Tools of recombinant DNA technology
11.C. Cloning vectors
11.D. Process of recombinant DNA technology
11.E. Obtaining the foreign gene product and downstream processing
12.A. Biotechnology application in agriculture
12.B. Biotechnology application in medicine
12.C. Transgenic animals
12.D.

13.A. Organism and its environment: major abiotic factors
13.B. Responses to abiotic factors
13.C. Adaptation
13.D. Population attributes
13.E. Population growth
13.F. Life history variation and population interaction
14.A. Ecosystem- structure and function
14.B. Decomposition
14.C. Energy flow
14.D. Ecological pyramids
14.E. Ecological successions
14.F. Nutrient cycling (carbon and phosphorus)
14.G. Ecosystem services
14.A. Biodiversity
14.B. Patterns of biodiversity
14.C. The importance of species diversity to the ecosystem, loss of biodiversity
14.D. Biodiversity conservation
14.A. Air pollution and its control
14.B. Water pollution and its control
14.C. Solid wastes
14.D. Agro-chemical and their effects
14.E. Radioactive wastes
14.F. Greenhouse effect and global warming
14.G. Ozone depletion in the stratosphere
14.H. Degradation by improper resource utilisation and maintenance
14.I. Deforestation
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CBSE- Grade 12 Maths Syllabus

Students having trouble with tough math problems who wish to score better in their mathematics examinations can refer to our free Class 12 Maths Syllabus and NCERT solutions which give students all that is necessary to prepare for their examinations and solve various math related problems. All that students need to do is go through these CBSE Class 12 Maths Syllabus and NCERT books and solve the questions and exercises given in each chapter. Students can be assured of positive results. NCERT text books can be very helpful for students in achieving maximum marks in their examinations.

Some of the topics Covered include :


TOPICS

  1. Relations and Functions
  2. Inverse Trignometric Functions
  3. Matrices
  4. Determinants
  5. Continuity or Differentiability
  6. Application of Derrivatives
  7. Integrals
  8. Application of Integrals
  9. Differential Equations
  10. Vector Algebra
  11. Three Dimensional Geometry
  12. Linear Programming
  13. Probability

1.A. Types of relation
1.B. Types of function
1.C. Composition of function and invertible function
1.D. Binary operation

2.A. Definition
2.B. Range
2.C. Domain
2.D. Graphs of inverse trigonometric functions
2.E. Properties of inverse trignometric functions
3.A. Matrix
3.B. Order of matrix
3.C. types of matrices
3.D. Properties of transpose of matrix
3.E. Operations on matrices: addition
3.F. Multiplication of matrices
3.G. Symmetric and skew-symmetric matrices
3.H. Elementary operation of matrix
3.I. Invertible matrix
3.J. Inverse of matrix by elimentary operation

4.A. Determinant
4.B. Properties of determinant
4.C. Area of a triangle
4.D. Minor and cofactors
4.E. Adjoint nand inverse of a matrix
4.F. Application of matrices and determinants: solution of linear equation using inverse of a matrix
5.A. Continuity
5.B. Algebra of continuous function
5.C. Differentiability
5.D. Derrivative of composite function (chain rule)
5.E. Derrivative of impicit function
5.F. Derrivative of inverse trignometric function
5.G. Exponential logarithmic function
5.H. Logarithmic differentiation
5.I. Derrivatives of function in parametric form
5.J. Second order derrivative
5.K. Mean value theorem

6.A. Rate of change of quantities
6.B. Increasing and decreasing functions
6.C. Tangents and normals
6.D. Approximation
6.E. Maxima and minima: Introduction
6.F. Maxima and minima: First derrivative method
6.G. Maxima and minima: second derrivative method
6.H. Maximum and minimum value of function in closed interval
7.A. Integration as an inverse process of differentiation
7.B. Geometric interpretation of indefinite integral
7.C. Some properties of indefinite integrals
7.D. Comparison between differentiation and integration
7.E. Methods of integration
7.F. Integration using trignometric identities
7.G. Integrals of some particular function
7.H. Integration by partial fraction
7.I. Integration by parts
7.J. Integrals of some more types
7.K. Definite integration: definite integral as a limit of a sum
7.L. Fundamental theorem of calculus
7.M. Evaluating definite integral by substitution
7.N. Some properties of definite integrals
8.A. Area under simple curves
8.B. Area of a region bounded by curve and a line
8.C. Area between two curves
9.A. Basic concept
9.B. Degree of a differential equation
9.C. General and particular solutions of differential equation
9.D. Formation of differential equation whose general solution is given
9.E. Methods of solving first order, first degree differential equation
9.D. Homogeneous differential equation
9.E. Linear differential equation
10.A. Some basic concepts
10.B. Types of vectors
10.C. Addition of vectors
10.D. Multiplication of vector by a scalar: components of vector
10.E. Vector joing two points
10.F. Section formula
10.G. Product of two vectors: scalar product and application
10.H. Scalar triple product
10.I. Cross product of two vectors
11.A. Direction cosines and direction ratios of a line
11.B. Equation of a line in space
11.C. Angle between two lines
11.D. Shortest distance between two lines
11.E. Plane: equation of plane in normal form
11.F. “Equation of a plane perpendicular to a given vector and passing through a given point”
11.G. Equation of plane passing through three non collinear points
11.H. “Intercept form of equation of line and a plane passing throug through
the intersection of two given plane”

11.I. Coplanarity of two lines
11.J. Angle between two planes
11.K. Distance of a point from a plane
11.L. Angle between a line and a plane
12.A. Linear programming problem and its mathematical formulation
12.B. Graphical method of solving linear programming problem
12.C. Different types of linear programming problem
13.A. Conditional probability
13.B. multiplication theorem on probability
13.C. independent events
13.D. total probability
13.E. Baye’s theorem
13.F. Random variable and its probability distribution
13.G. mean and variance of random variable
13.H. Repeated independent (Bernoulli) trials and Binomial distribution
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CBSE- Grade 12 Chemistry Syllabus

Your latest CBSE syllabus for class 12 Chemistry along with study material and question paper pattern. It is important to know which are the units and chapters included in class 12 chemistry syllabus along with NCERT solutions so that you get to know the new units added which were not the part of syllabus last year and whether any of the previous chapters and topics are deleted.

CBSE is always concerned about the results and performances of students in their academics and therefore imparts modifications in class 12 chemistry syllabus after proper studies and discussions with the board members. Every change points towards the overall development and advancement of the students by keeping the importance of primary education and role of future generations in the economic growth.

The list of units in class 12 Chemistry is mentioned below.


TOPICS

  1. Solid State
  2. Solutions
  3. Electrochemistry
  4. Chemical Kinetics
  5. Surface Chemistry
  6. General Principle and Process of Isolation of Elements
  7. The p-Block Elements
  8. The d- and f- Block Elements
  9. Coordination Compounds
  10. Haloalkanes and Haloarenes
  11. Alcohols, Phenols and Ethers
  12. Aldehydes, Ketones and Carboxyllic Acids
  13. Amines
  14. Biomolecules
  15. Polymers
  16. Chemistry in Everyday Life

1.A. General characteristics of solid state, Amorphous and crystalline solids
1.B. Classification of crystalline solids: molecular and ionic solids
1.C. Classification of crystalline solids: covalent and metallic solids
1.D. Crystal lattices and unit cell
1.E. Number of atoms in a unit cell
1.F. Close packed structure in one and two dimension
1.G. Close packing in three dimensions
1.H. Formula of a compounds and number of voids filled
1.I. Packing efficiency
1.J. Calculation involving unit cell dimension: density of unit cell
1.K. Imperfections in solids
1.L. Electrical properties
1.M. Band theory of metals
1.N. Magnetic properties

2.A. Types of solutions
2.B. Expressing concentration of solutions
2.C. Solubility: solubility of solid in liquid
2.D. Solubility of gas in a liquid
2.E. Raoult’s law
2.F. Colligative properties and determination of molar mass: relative lowering of
vapour pressure

2.G. Elevation of boiling point
2.H. Depression of freezing point
2.I. Osmosis and osmotic pressure
2.J. Reverse osmosis and water purification
2.H. Abnormal molar mass: Van’t Hoff factor
3.A. Electrochemical cells
3.B. Galvanic cells
3.C. Measurement of electrode potential
3.D. Nernst equation > 100
3.E. equilibrium constant from Nernst equation
3.F. Electrochemical cell and Gibbs free energy of reaction
3.G. Conductance of electrolytic cell
3.H. Measurement of conductivity of ionic solutions
3.I. Variation of conductivity and molar conductivity with concentration
3.J. Kohlrausch law
3.K. Electrolytic cell and electrolysis
3.L. Products of electrolysis
3.M. Batteries
3.N. Fuel cell
3.O. Corrosion
4.A. Rate of chemical reaction
4.B. Factors influencing rate of reaction
4.C. Rate expression and rate constant
4.D. Order and molecularity of reaction
4.E. Integrated rate equations
4.F. Half life of a reaction
4.G. Pseudo first order reaction
4.H. Temperature dependence of rate of reaction
4.I. Arrhenious equation
4.J. Effect of catalyst
4.K. Collision theory of chemical reactions
5.A. Adsorption: distinction between adsorption and absorption and mechanism
5.B. Types of adsorption
5.C. Adsorption isotherms and application of adsorption
5.D. Catalysis
5.E. Homogeneous and heterogeneous catalyst
5.F. Adsorption theory of heterogeneous catalyst
5.G. Enzyme catalysis
5.H. Colloids and classification of colloids
5.I. “Classification based on types of particles of dispersed phase, multimolecular,
macromolecular and associated colloids”

5.J. Preparation of colloids
5.K. purification of colloidal solution
5.L. Properties of colloidal solution
5.M. Coagulation
5.N. Emulsions
5.o. Colloids around us
6.A. Occurrence of metals
6.B. Concentration of ores
6.C. Extraction of crude metals from concentrated ore
6.D. Thermodynamics principle of metallurgy
6.E. Application of thermodynamics principle: extraction of iron from iron oxide
6.F. Extraction of copper from cuprous oxide
6.G. Extraction of zinc from zinc oxide
6.H. Electrochemical principle of metallurgy
6.I. Oxidation and reduction
6.J. “Refining: distillation, liquation, electrolysis, zone refining, Vapour phase
refining and chromatographic methods”

6.K. Uses of copper, iron and zinc
7.A. Occurrence
7.B. Group 15 elements: general characteristics
7.C. Physical and chemical properties of group 15 elements
7.D. Dinitrogen
7.E. Ammonia and nitric acid
7.F. Oxides of nitrogen
7.G. Phosphorous allotropic form
7.H. Phosphine
7.I. Phosphorus halide
7.J. oxoacids of phosphorus
7.K. Group 16 elements: occurence
7.L. Group 16 elements: general characteristics
7.M. Physical and chemical properties of group 16 elements
7.N. Dioxygen
7.O. Simple oxides
7.P. Ozone
7.Q. sulphur allotropic form
7.R. Sulphur dioxide
7.S. Oxoacids of sulphur
7.T. Sulphuric acid
7.U. Group 17 elements: occurrence
7.V. Group 17 elements: general characteristics
7.W. Physical and chemical properties of group 17 elements
7.X. Chlorine, Hydrogen chloride
7.Y. Oxoacids of halogens
7.Z. Interhalogen compounds
7.Z1. Group 18 elements: general characteristics
7.Z2. Group 18 elements: occurence
7.Z3. Physical and chemical properties of group 18 elements
7.Z4. Uses of noble gases
8.A. Electronic configuration
8.B. occurrence and characteristics of transition metals
8.C. general trends in properties of the first row transition metals – metallic character
8.D. ionization enthalpy
8.E. oxidation states
8.F. colour
8.G. catalytic property
8.H. magnetic properties
8.I. interstitial compounds
8.J. alloy formation
8.K. preparation and properties of K2Cr2O7 and KMnO4
8.L. Electronic configuration: lanthanide
8.M. oxidation states
8.N. chemical reactivity and lanthanide contraction
8.O. Electronic configuration, ionic size , oxidation state: actinides
8.P. oxidation states and comparison with lanthanides
8.Q. Some application of d- and f- block elements
9.A. Werner’s theory of coordination compound
9.B. Definition of some important terms pertaining to coordination compounds
9.C. Nomenclature of coordination compounds
9.D. Isomerism in coordination compounds
9.E. Bonding ion coordination compounds: valence bond theory
9.F. Magnetic properties of coordination compounds
9.G. Crystal field theory
9.H. Colour in coordination compounds
9.I. Limitations to crystal field theory
9.J. Bonding in metal carbonyls and stability of coordination compounds
9.K. Importance and application of coordination compounds
10.A. Classification
10.B. Nomenclature
10.C. Nature of c-x bond
10.D. Method of preparation
10.E. Physical properties
10.F. Chemical reactions
10.G. Mechanism of SN1 and SN2 reaction
10.H. Grignard Reagent
10.I. Optical activity and chirality
10.J. Reaction of haloarenes
10.K. Electrophilic substitution reactions and reaction with metals
10.L. Freons, DDT, trichloromethane
10.M. tetrachloromethane
10.N. iodoform
11.A. Classification
11.B. Nomenclature of alcohols
11.C. Structures of functional group
11.D. Methods of preparation
11.E. physical and chemical properties( of primary alcohols only)
11.F. identification of primary, secondary and tertiary alcohols
11.G. mechanism of dehydration
11.H. uses with special reference to methanol and ethanol
11.I. Phenols: Nomenclature
11.J. methods of preparation
11.K. physical and chemical properties
11.L. acidic nature of phenol
11.M. electrophilic substitution reactions
11.N. uses of phenols
11.O. Ethers: Nomenclature
11.P. methods of preparation
11.Q. Physical and chemical properties
12.A. Nomenclature and structure of carbonyl compounds
12.B. methods of preparation of aldehydes
12.C. methods of preparation of ketones
12.D. physical and chemical properties
12.E. nucleophilic addition reactions
12.F. reactivity of alpha hydrogen in aldehydes
12.G. uses of aldehydes and ketones
12.H. Carboxylic Acids: Nomenclature
12.I. acidic nature
12.J. methods of preparation
12.K. physical properties and acidity
12.L. Chemical properties
12.M. uses
13.A. Structure and classification
13.B. Amines: Nomenclature
13.C. methods of preparation
13.D. physical properties of amines
13.E. Identification of primary, secondary and tertiary amines
13.F. Electrophilic substitution of amines
13.G. chemical properties (basicity and acylation)
13.H. Diazonium salts: methods of preparation
13.I. Chemical reaction of diazonium salts I
13.J. Chemical reaction of diazonium salts II
13.K. Importance of diazonium salts
14.A. Carbohydrates – Classification (aldoses and ketoses)
14.B. monosaccharides (glucose)
14.C. monosaccharides (Fructose)
14.D. Disaccharides ( sucrose,lactose,maltose)
14.E. polysaccharides (starch, cellulose, glycogen) importance
14.F. Proteins – Elementary idea of α – amino acids and classification
14.G. structure of proteins, fibrous and globular proteins
14.H. denaturation of proteins
14.I. enzymes
14.J. Hormones – Elementary idea excluding structure
14.K. Vitamins – Classification and functions
14.L. Nucleic Acids: DNA and RNA
14.M. Biological function of nucleic acid
15.A. Classification of polymers
15.B. methods of polymerization (addition and condensation)
15.C. Preparation of important addition polymers
15.D. Preparation of important condensation polymers: polyamides, polyesters
15.E. Bakelite, melamine-formaldehyde polymers
15.F. copolymerization
15.G. Molecular mass of polymer and biodegradable polymers
15.H. rubber
15.I. Polymers of commercial importance
16.A. Drugs and their classification
16.B. Drug-target interaction
16.C. Therapeutic action of different classes of drugs: antacids
16.D. Antihistamines
16.E. Neurologically active drug: Tranquilizers antiseptics
16.F. Chemicals in medicines – analgesics
16.G. Antimicrobials: antibiotics
16.H. Antiseptic and disinfectants
16.I. Antifertility drugs
16.J. Antioxidants
16.K. Chemicals in food – preservations
16.L. Artificial sweetening agents
16.M. Cleansing agents: soap and detergents
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CBSE- Grade 12 Physics Syllabus

CBSE is known to be among the most reputed boards that provides education by imparting comprehensive syllabus in appropriate manner.Class 12 Physics can be helpful in providing adequate knowledge on the concerned topics and the units mentioned in the syllabus. The class 12 syllabus is accessible online and can be downloaded in any format easily.


TOPICS

  1. Electric Charges and Fields
  2. Electrostatic Potential and Capacitance
  3. Current Electricity
  4. Moving Charges and Magnetism
  5. Magnetism and Matter
  6. Electromagnetic Induction
  7. Alternating Current
  8. Electromagnetic Waves
  9. Ray Optics and Optical Instruments
  10. Wave Optics
  11. Dual Nature of Radiation and Matter
  12. Atoms
  13. Nuclei
  14. Semiconductor Electronics: Material Devices and Simple
    circuits
  15. Communication System

1.A. Electric charge: conservation
1.B. Conductors and insulators
1.C. Charging by induction
1.D. Basic principle of electric charge
1.E. Coulomb’s law
1.F. Forces between multiple charges
1.G. Electric field
1.H. Electric field lines
1.I. Electric flux
1.J. Electric dipole
1.K. Dipole in a uniform external field
1.L. Continuous charge distribution
1.M. Gauss’s law
1.N. Application of Gauss’s law

2.A. Electrostatic potential
2.B. Potential due to a point charge
2.C. Potential due to an electric diple
2.D. Potential due to a system of charges
2.E. Equipotential surfaces
2.F. Potential energy of system of charges
2.G. Potential energy in an external field
2.H. Electrostatics of conductor
2.I. Dielectrics and polarisation
2.J. Capacitors and capacitance
2.H. The parallel plate capacitor
2.I. Effect of dielectric on capacitance
2.J. Combinaion of capacitors
2.K. Energy stored in a capacitor
2.L. Van De Graff’s generator
3.A. Electric current
3.B. 
3.C. Ohm’s law and its limitations
3.D. Drift of electrons and origin of resistivity
3.E. Resisitivity of various materials
3.F. Temperature dependence of resistivity
3.G. Electric energy, power
3.H. Combination of resistors
3.I. Cells, EMF, internal resistance
3.J. Cells in series and parallel
3.K. Kirchoff’s rule
3.L. Wheatstone bridge, Meter bridge
3.M. Potentiometer

4.A. Magnetic force
4.B. Motion in a magnetic field
4.C. Motion in combined magnetic and electric field
4.D. Measurement of time Biot Savart’s law, Magnetic field on the axis of circular current loop
4.E. Ampere’s circuital law
4.F. The solenoid and toroid
4.G. Force between two parallel current, the ampere
4.H. “Toreque on current loop, magnetic dipole : Torque on a rectangular current loop in a magnetic field”
4.I. Circular current loop as magnetic dipole
4.J. The magnetic dipole moment of revolving electron
4.K. The moving coil galvanometer
5.A. The bar magnet: magnetic field line, bar magnet as solenoid
5.B. The dipole in a uniform magnetic field and the electrostatic analog
5.C. Magnetism and Gauss’s law
5.D. The earth’s magnetism
5.E. Magnetisation and magnetic intensity
5.F. Magnetic properties of material- Paramagnetism
5.G. dia- and ferro – magnetic substances
5.H. Permanent magnets and electromagnets
6.A. The experiments of faraday and henry
6.B. Magnetic flux
6.C. Faraday’s law of induction
6.D. Lenz’s law and conservation of energy
6.E. Motional electromotive force
6.F. Energy consideration : A quantative study
6.G. Eddy current
6.H. Inductance: self and mutual inductance
6.I. AC generator
7.A. Peak and RMS value of alternating current/voltage
7.B. AC voltage applied to a resistor
7.C. Representation of AC current and voltage by rotating vectors- phasors
7.D. AC voltage applied to an inductor
7.E. AC voltage applied to a conductor
7.F. AC voltage applied to a series LCR circuit: phasor diagram solution
7.G. AC voltage applied to a series LCR circuit: analytical solution
7.H. Resonance
7.I. Power of AC circuit: power factor
7.J. LC oscillation
7.K. Transformers
8.A. Displacement current
8.B. Electromagnetic waves: source
8.C. Nature of electromagnetic waves
8.D. electromagnetic spectrum
8.E. Radio waves
8.F. microwaves
8.G. infrared
8.H. visible
8.I. ultraviolet
8.J. X-rays
8.K. gamma rays
9.A. Reflection of light by spherical mirrors
9.B. Mirror formula
9.C. Refraction of light
9.D. Total internal reflection and its applications
9.E. Optical fibres
9.F. Refraction at spherical surfaces
9.G. Lenses
9.H. Thin lens formula and magnification
9.I. Lensmakers formula
9.J. Power of a lens
9.K. Combination of thin lenses in contact combination of a lens and a mirror
9.L. Refraction and dispersion of light through a prism
9.M. Blue colour of sky and reddish apprearance of the sun at sunrise and sunset
9.N. Microscopes and astronomical telescopes (reflecting and refracting) and their magnifying powers
10.A. Huygens principle
10.B. Reflection and refraction of a plane wave
10.C. Doppler effect
10.D. Coherrent and incoherrent addition of waves
10.E. Interference of light waves and young’s experiment
10.F. Diffraction
10.G. Resolving power of optical instrument and validity of ray optics
10.H. Polarisation
10.I. Polarization by scattering
10.J. Polarization by reflection
11.A. Electron emission
11.B. Photoelectric effect: Hertz and Lenard’s observation
11.C. Experimental study of photoelectric effect
11.D. Einstein’s photoelectric effect: energy quantum of radiation
11.E. Particle nature of light: photon
11.F. Wave nature of matter
11.G. Davisson and Germer experiment
12.A. Alpha- particle scattering and Rutherford’s nuclear model of atom
12.B. Atomic spectra
12.C. Bohr’s model of hydrogen atom
12.D. Energy levels
12.E. Line spectra and the hydrogen atom
12.F. De Brogli’s explanation of Bohr’s second postulate of quantisation
13.A. Atomic masses and composition of nucleus
13.B. Size of nucleus
13.C. Mass-energy and nuclear binding energy
13.D. Nuclear force
13.E. Radioactivity- law of radioactive decay
13.F. Alpha decay
13.G. Beta decay
13.H. Gamma decay
13.I. Nuclear energy: fission
13.J. Nuclear reactor
13.K. Nuclear fusion: energy generation in stars
13.L. Controlled thermonuclear fusion
14.A. Classification of metal, conductors and semiconductors, insulators
14.B. Intrinsic semiconductors
14.C. Extrinsic semiconductors
14.D. P-n junction
14.E. Semiconductor diodes
14.F. Application of junction diode as rectifier
14.G. Special purpose p-n junction diode: Zenner diode
14.H. Optoelectronic jnction devices: photodiode
14.I. Light emitting diode
14.J. Solar cell
14.K. Junction transistor: structure and action
14.L. Basic transistor circuit configuration and transistor characteristics
14.M. Transistor as a device (amplifier)
14.N. Feedback amplifier and transistor oscillator
14.O. Digital electronics and logic gates
14.P. Integrated circuits
15.A. Element of a communication system
15.B. Basic terminology used in electronic communication system
15.C. Bandwidth of signals
15.D. Bandwidth of transmission medium
15.E. Propagation of electromagnetic waves:ground wave
15.F. Propagation of electromagnetic waves:sky wave
15.G. Propagation of electromagnetic waves:space wave
15.H. Modulation and its necessity
15.I.  Amplitude modulation
15.J. Detection of amplitude modulated wave
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CBSE- Grade 11 Biology Syllabus

CBSE syllabus always maintains a sta and If a student has trouble understanding a topic related to science, the student can go through questions and answers related to each topic covered in Class11 Biology.

Some of the topics Covered include :


TOPICS

  1. Living World
  2. Biological Classification
  3. Plant Kingdom
  4. Animal Kingdom
  5. Morphology of Flowering Plants
  6. Anatomy of Flowering Plants
  7. Structural Organisation in Animals
  8. Cell: The Unit of Life
  9. Biomolecules
  10. Cell Cycle And Cell Division
  11. Transport in Plants
  12. Mineral Nutrition
  13. Photosynthesis in Higher Plants
  14. Respiration in Plants
  15. Plant Growth and Development
  16. Digestion and Absorption
  17. Breathing and Exchange of Gases
  18. Body Fluids and Circulation
  19. Excretory Products and Elimination
  20. Locomotion and Movement
  21. Neural Control and Coordination
  22. Chemical Coordination and Integration

1.A. What is living
1.B. Diversity in the living world
1.C. Taxonomic categories
1.D. Taxonomical aids

2.A. Kingdom monera
2.B. Kingdom protista
2.C. Kingdom fungi
2.D. Kingdom Plantae and animalia
2.E. Viruses, viroids and lichens
3.A. Algae,Bryophytes, Pteridophytes, Gymnosperm
3.B. Angiosperm
3.C. Plant life cycle and alternation of generation
4.A. Basis of classification
4.B. Classification of animals: phylum porifera, coelenterata, ctenophora, platyhelminthes
4.C. Phylum aschelminthes, annelida, artheopoda, mollusca, echinodermata, hemichordata
4.D. Phylum-chordata
5.A. The root, the stem
5.B. The leaf
5.C. The infloresence and the flower
5.D. The fruit
5.E. The seed
5.F. Semitechnical description of some flowering plants
5.G. Description of some important fmilies: Febaceae, solanaceae,Liliaceae
6.A. The tissues, the tissue system
6.B. Anatomy of dicotyledonous and monocotyledonous plants
6.C. Secondary growth: Vascular cambium and cork cambium, secondary growth in roots
7.A. Animal tissue: epithelial and connective tissue
7.B. Muscle tissue, neural tissue
7.C. Earthworm
7.D. Cockroach
7.E. Frogs
8.A. Cell theory and overview of cell
8.B. Prokaryotic cells
8.C. Eukaryotic cells:cell membrane and cell wall
8.D. endomembrane system, endoplasmic reticulum, Golgi bodies, lysosomes, vacuoles
8.E. mitochondria, ribosomes, plastids, microbodies
8.F. cytoskeleton, cilia, flagella, centrioles (ultrastructure and function)
8.G. nucleus
9.A. How to analyse chemical composition
9.B. Primary and secondary metabolites and bio macromolecules
9.C. Polysccharides
9.D. Nucliec acids and structure of proteins
9.E. Nature of bond linking monomers in a polymer
9.F. Dynamic state of body constituents- concept of metabolism
9.G. Metabolic basis for living and living state
9.H. Enzymes: chemical reaction, classification and nomenclature of enzymes and cofactors
9.I. Action and nature of enzyme, Factors affecting enzyme activity
10.A. Cell cycle
10.B. M phase and significance of mitosis
10.C. Mieosis I
10.D. Meiosis II and Significance if Mieosis
11.A. Means of transport
11.B. Plant-water relation
11.C. Long distance transport of water
11.D. Transpiration
11.E. Uptake and transport of mineral nutrients
11.F. Metabolism of nitrogen
12.A. Methods to study the mineral requirements of plants
12.B. Essential mineral elements
12.C. Macronutrient and micronutrient
12.D. Mechanism of absorption of elements and translocation of solutes, Soil as reservoir of essential elements
12.E. Deficiency of nutrients
12.F. Metabolism of nitrogen
13.A. What do we know and early experiments
13.B. Where does photosynthesis take place
13.C. How many pigments are involved in photosynthesis and light reaction
13.D. Electron transport
13.E. Where are the ATP and NADPH used
13.F. The C4 pathway
13.G. Photorespiration
13.H. Factors affecting photosynthesis
14.A. Do plants breathe
14.B. Glycolysis
14.C. Fermentation
14.D. Aerobic respiration: Tricarboxylic acid cycle and electron transport system
14.E. The respiration balance sheet
14.F. Amphibolic pathway
14.G. Respiratory quotient
15.A. Growth, Condition of growth
15.B. Differentiation, dedifferentiation and redifferentiation, Development
15.C. Plant growth regulators: characteristics and discovery of plant growth regulators
15.D. Physiological effects of plant growth regulators
15.E. Photoperiodism
15.F. Vernalisation
16.A. Digestive system: alimentary canal
16.B. Digestive glands and digestion of food
16.C. Absorption of digested products
16.D. Disorders of digestive system
17.A. Respiratory organs
17.B. Mechanism of breathing
17.C. Exchange of gases
17.D. Transport of gases
17.E. Regulation of respiration and disorder of respiratory system
18.A. Blood: plasma and formed elements
18.B. Coagulation of blood
18.C. Blood groups
18.D. Lymph
18.E. Circulatory pathways: human circulatory system
18.F. Cardiac cycle and ECG
18.G. Double circulation
18.F. Regulation of cardiac activity
18.G. Disorders of circulatory system
19.A. Human excretory system
19.B. Urine formation
19.C. Function of tubules
19.D. Mechanism of concentration of filtrate
19.E. Regulation of kidney function
19.F. Micturition
19.G. Role of other organ in excretion
19.H. Disorders of the excretory system
19.I. DIalysis
20.A. Types of movement
20.B. Muscle
20.C. Structure of contractile protein and mechanism of contration
20.D. Skeletal system
20.E. Joints
20.F. Disorders of muscular and skeletal system
21.A. Human neural system
21.B. Neurons as structural and functional unit of neural system: generation and conduction of nerve impulse
21.C. Transmission of impulses
21.D. Central neural system
21.E. Reflex action and reflex arc
21.F. Sensory reception and processing: eye and ear
22.A. Endocrine glands and hormones
22.B. Human endocrine system: hypothalamus, pituitary gland, pineal gland, thyroid gland
22.C. Parathyroid gland, thymus, adrenal gland, pancreas, testis and ovary
22.D. Role of hormones as messengers and regulators
22.E. Hormones of heart kidney and Gastrointestinal tract
22.F. Mechanism of hormone action
22.G. Disorders of endocrine glands
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CBSE- Grade 11 Maths Syllabus

Maths is a useful and scoring subject for all students. Therefore it is a necessary subject for students to prepare well for.The CBSE board has included this subject in class 11 curriculum so that students have the ability to think and calculate and solve problems without any difficulties.CBSE board strives to give students valuable and informative education with the syllabus that he have carefully constructed. We also provide students with an interesting article with each topic that the students will cover. Thereby helping students get a clear idea and better understand the topic.

It is important for every 11th grade student to know the CBSE class 11 maths syllabus of every subject before starting their preparation for exams.

Some of the topics Covered include :


TOPICS

  1. Sets
  2. Relations and Functions
  3. Trignometric Functions
  4. Principle of Mathematical Induction
  5. Complex Numbers and Quadratic Equation
  6. Linear Inequalities
  7. Permutation and Combination
  8. Binomial Theorem
  9. Sequence and Series
  10. Strainght Lines
  11. Conic Sections
  12. Introduction to 3-D Geometry
  13. Limits and Derrivatives
  14. Mathematical Reasoning
  15. Statistics
  16. Probability

1.A. Sets and their representation
1.B. Types of sets: empty sets, finite and infinite sets, power set, universal set
1.C. Cardinality of sets
1.D. Subset and superset
1.E. Venn diagram
1.F. Operation on sets: union of sets
1.G. Operation on sets: intersection and difference of sets
1.H. Complement of sets
1.I. Practical problems on union and intersection of two sets

2.A. Cartesian product of sets
2.B. Relations
2.C. Function: domain and range
2.D. identity function, constant function and modulus function
2.E. Graphs of polynomial function
2.F. Graphs of rational function
2.G. Algebra of real functions
3.A. Angles
3.B. Trignometric functions
3.C. Domain and range of trignometric functions
3.D. Trignometric function of sum and difference of two angles
3.E. Trignometric equations

4.A. Introduction and motivation
4.B. The principle of mathematical induction
5.A. Algebra of complex numbers
5.B. Modulus and conjugate of complex numbers
5.C. Argand plane and polar representation
5.D. Quadratic equations
5.E. Euler’s formula and De Moivre’s theorem
6.A. Inequalities
6.B. Algebraic solution of linear inequality in one variable and their graphical representation
6.C. Graphical solution of linear inequalities in two variables
6.D. Solution of system of linear inequalities in two variables
7.A. Fundamental principle of counting
7.B. Permutations
7.C. Combinations
8.A. Binomial theorem for positive integral indices
8.B. General and middle term
9.A. Sequences and Series
9.B. Arithmetic progressions
9.C. Geometric progression
9.D. Relationship between Aithmetic mean and geometric mean
9.E. Sum to n terms of special series
10.A. Slope of a line
10.B. Various forms of equation of line
10.C. General equation of line
10.D. Distance of a point form a line
11.A. Sections of cone
11.B. Circle
11.C. Parabola
11.D. Ellipse
11.E. Hyperbola
12.A. Coordinates of point in space
12.B. Distance between two points
12.C. Section formula
13.A. Intuitive idea of derrivative
13.B. limits
13.C. Limits of trignometric function
13.D. Derrivatives
13.E. Algebra of derivative of function
14.A. Introduction
14.B. Statements
14.C. New statements from old
14.D. Special word/phrase
14.E. Implications
14.F. validating statements
14.A. Measures of dispersion and range
14.B. Mean deviation
14.C. mean deviation for ungrouped data
14.D. mean deviation for discrete frequency distribution
14.E. mean deviation for continuous frequency distribution
14.F. Variance and standard deviation
14.G. Shortcut method for finding variance and standard deviation
14.H. Analysis of frequency distribution
14.A. Random experiment
14.B. Event and types of event
14.C. Algebra of event
14.D. Axiomatic approach to probability
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CBSE- Grade 11 Chemistry Syllabus

CBSE chemistry syllabus that covers all the required topics and units in an organized manner. Students from different boards can also visit this syllabus for reference. CBSE board conducts studies and research before modifying and prescribing syllabus for any class and subsequently implements changes time to time. Now download Chemistry syllabus for class 11 and know which are the chapters and units included and eliminated from the previous syllabus.

The list of units in class 11 Chemistry is mentioned below.


TOPICS

  1. Some Basics Concepts of Chemistry
  2. Structure of Atom
  3. Classification of Elements and Periodicity in Properties
  4. Chemical Bonding and Molecular Structure
  5. States of Matter
  6. Thermodynamics
  7. Equilibrium
  8. Redox Reactions
  9. Hydrogen
  10. The s-block Elements
  11. The p- block Elements
  12. Organic Chemistry: Some Basic Principles and Techniques
  13. Hydrocarbons
  14. Environmental Chemistry

1.A. Importance of Chemistry
1.B. Nature of Matter
1.C. Significant figures
1.D. Empirical and molecular formula
1.E. Chemical reactions
1.F. Uncertainty in Measurement
1.G. Laws of Chemical Combinations
1.H. Dalton’s Atomic Theory
1.I. Atomic and Molecular Masses
1.J. Mole concept and molar masses and percentage composition
1.K. Stochiometry and stoichiometric calculation

2.A. Sub-atomic Particles: Discovery of electrons
2.B. Discovery of protons and neutrons
2.C. Charge to mass ratio of electrons
2.D. Miliken’s oil drop experiment
2.E. Atomic Models: Thomsons model of atom
2.F. Rutherfords’ model and limitation
2.G. Atomic number and mass number, isotopes and isobars
2.H. Bohr’s model
2.I. Wave nature of electromagnetic radiation
2.J. Plank’s quantum theory
2.H. Photoelectric effect
2.I. Dual behavior of electromagnetic radiation
2.J. Atomic spectra
2.K. Line spectrum of Hydrogen
2.L. Bohr’s Model for Hydrogen Atom
2.M. Towards Quantum-Mechanical Model of the Atom
2.N. Dual behavior of matter
2.O. Heisenberg Uncertainty Principle
2.P. Quantum Mechanical Model of Atom
2.Q. Hydrogen atom and Schrodinger equation
2.R. Orbitals and quantum number
2.S. Shapes of atomic orbital
2.T. Energy of atomic orbitals
2.U. Auf Bau’s principle, Pauli’s exclusion principle, Hund’s rule of
maximum multiplicity

2.V. Electronic configuration of atoms, stability of completely filled and
half filled electrons
3.A. Why do we need to classify elements
3.B. Genesis of periodic classification
3.C. Modern periodic law and the present form of periodic table
3.D. Nomenclature of elements having atomic atoms > 100
3.E. Electronic configuration of elements and the periodic table
3.F. Electronic configuration and type of elements: s,p,d, and f blocks
3.G. Metal non-metals and metalloids
3.H. Periodic trend in properties of elements: atomic radii
3.I. Ionic radius
3.J. Ionisation enthalpy
3.K. Electron gain enthalpy
3.L. Electronegativity
3.M. Valency or oxidation states
3.N. Anamolous property of second group elements
3.O. Periodic trend and chemical reactivity
4.A. Kossel-Lewis approach to chemical bonding
4.B. Octet rule
4.C. Covalent bonding
4.D. Lewis representation of simple molecules
4.E. Formal charge
4.F. Limitation to octet rule
4.G. Ionic or electrovalent bond
4.H. Bond parameters
4.I. Resonance structures
4.J. Polarity of bonds
4.K. VSEPR theory
4.L. Shapes of simple molecules according to VSEPR theory
4.M. Valence bond theory
4.N. Orbital overlap concept
4.O. Type of orbital overlap
4.P. Hybridisation
4.Q. Types of hybridization involving sp,sp2, sp3 and sp3d
4.R. Molecular orbital theory
4.S. Linear combination of atomic orbitals (LCAO)
4.T. Condition for combination of atomic orbitals
4.U. Bonding in some homonuclear diatomic molecules
4.V. Hydrogen bonding
5.A. Intermolecular forces
5.B. Intermolecular forces vs thermal interactions
5.C. The gaseous state
5.D. Boyle’s law
5.E. Charle’s law
5.F. Gay Lussac law
5.G. Avagadro’s law
5.H. Ideal gas equation
5.I. Dalton’s law of partial pressure
5.J. Kinetic molecular theory of gases
5.K. Behaviour of real gas: Deviation from ideal gas
5.L. Liquifaction of gas
5.M. Liquid state- vapor pressure
5.N. Viscosity and surface tension
6.A. Thermodynamics terms: system of surrounding, types of system,
State of system

6.B. Internal energy as state function, work and heat
6.C. First law of thermodynamics – Application
6.D. Isothermal and free expansion of ideal gas
6.E. Enthalpy
6.F. Extensive and Intensive properties
6.G. Relationship between Cp and Cv for an ideal gas
6.H. Measurement of ΔU and ΔH
6.I. Enthalpy change: Standard enthalpy of reaction
6.J. Enthalpy of bond dissociation, combustion, formation
6.K. Enthalpy of atomization, sublimation, phase transition, solution
6.L. Hess’s law of constant heat summation
6.M. Spontaneity
6.N. Second law of Thermodynamics
6.O. Entropy and spontaneity
6.P. Gibbs energy and spontaneity
6.Q. Gibbs energy change and equilibrium
6.R. Third law of thermodynamics
7.A. Equilibrium in physical processes: solid-liquid equilibrium,
Liquid-vapor equilibrium, Solid vapor equilibrium

7.B. Equilibrium Involving Dissolution of Solid or Gases in Liquids
7.C. General Characteristics of Equilibria Involving Physical Processes
7.D. Equilibrium in Chemical Process: Dynamic Equilibrium
7.E. Law of Chemical Equilibrium and Equilibrium Constant
7.F. Homogeneous Equilibria
7.G. Heterogeneous Equilibria
7.H. Application of Equilibrium Constant: Predicting the extent of reaction
7.I. Prediction of direction of reaction
7.J. Calculating equilibrium concentrations
7.K. Relation between equilibrium constant, reaction constant and
Gibbs energy

7.L. Factors affecting equilibrium
7.M. Factors affecting equilibrium (concentration, inert gas and Pressure)
7.N. Factors affecting equilibrium (catalyst and temperature)
7.O. Le-chatelier principle
7.P. Ionic equilibrium in solution
7.Q. Acids, bases, and salts
7.R. Ionisation of acids and bases
7.S. Acidic strength, concept of pH
7.T. Ionisation of weak acids and bases
7.U. Di and polybasic acids and bases
7.V. Factors affecting acidic strength
7.W. Hydrolysis of salts
7.X. Buffer solution
7.Y. Solubility equilibria of sparingly soluble salts
7.Z. Common ion effect on solubility of ionic salts
8.A. Classical idea of redox reaction- oxidation and reduction reaction
8.B. Redox reaction in term of electron transfer reactions
8.C. Oxidation number
8.D. Types of reactions
8.E. Balancing of redox reaction
8.F. Redox reaction as basis of titration
8.G. Redox reaction and electrode processes
9.A. Position of Hydrogen in periodic table
9.B. Di-hydrogen: Occurrence and isotopes
9.C. Preparation of di-hydrogen
9.D. Properties of di-hydrogen and use
9.E. Hydrides
9.F. Physical and chemical properties of water
9.G. Hard and soft water
9.H. Hydrogen peroxide: Preparation and physical and chemical properties
9.I. Hydrogen peroxide: Structure and uses
9.J. Heavy water
9.K. Hydrogen as fuel
10.A. Group 1 elements: Alkali metals
10.B. Physical and chemical properties of alkali metals
10.C. General characteristics of compounds of alkali metals
10.D. Diagonal relationship
10.E. Anomalous properties of lithium and beryllium
10.F. Some important compounds of sodium: sodium carbonate
10.G. Sodium chloride
10.H. Sodium hydroxide
10.I. Sodium hydrocarbonate
10.J. Biological importance of sodium and potassium
10.K. Group 2 element : Alkaline earth metals
10.L. Chemical properties of group 2 elements and uses
10.M. General characteristics of compounds of alkaline earth metals
10.N. Some important compounds of calcium: Calcium oxide, calcium
Carbonate

10.O. Calcium carbonate, calcium sulphate
10.P. Biological importance of magnesium and calcium
11.A. Group 13 elements: boron family: electronic configuration, atomic
radii, electronegativity, ionization enthalpy

11.B. Physical properties and chemical properties of boron family
11.C. Important trends and anomalous properties of boron
11.D. Some important compound of boron: Borax, orthoboric acid, dibornae
11.E. Uses of boron and aluminium and their compounds
11.F. Group 14 elements: carbon family: electronic configuration, covalent
radii, electronegativity, ionisation enthalpy

11.G. Physical and chemical properties of carbon family
11.H. Important trends and anomalous behavior of carbon
11.I. Allotropes of carbon
11.J. Some important compound of carbon and silicon: Carbon monoxide,
carbon dioxide

11.K. Silicon dioxide, silicones, silicates and zeolites
12.A. General Introduction
12.B. Tetravalence of carbon: Shapes of organic compound
12.C. “Structural representation of organic compounds: Complete,
Condensed and Bond-line, Structural Formulas, Three-Dimensional Representation of Organic molecules”

12.D. Classification of organic compound
12.E. Nomenclature of organic compounds: Nomenclature of alkanes
12.F. Nomenclature of organic compounds having functional group
12.G. Nomenclature of substituted benzene compound
12.H. Isomerism
12.I. Fundamental concepts of organic reactions mechanism
12.J. Nucleophiles and electrophiles, electron movement in organic reactions
12.K. Inductive effect
12.L. Resonance structures and resonance effect
12.M. Electromeric effect and hyperconjugation
12.N. Method of purification of organic compounds: Sublimation,crystallization, distillation
12.O. Differential extraction and chromatography
12.P. Qualitative analysis of organic compounds: detection of carbon and hydrogen, test for nitrogen
12.Q. Test for sulphur, halogen and phosphorus
12.R. Quantitative analysis for carbon, hydrogen and nitrogen
12.S. Quantitative analysis for Halogen, sulphur, phosphorus and oxygen
13.A. Classification
13.B. Nomenclature of alkenes, alkanes and alkynes
13.C. Alkanes: Isomerism
13.D. Preparation of alkanes
13.E. Physical and chemical properties of alkanes
13.F. Combustion
13.G. Pyrolysis
13.H. Conformations
13.I. Alkenes: structure of double bond and isomerism
13.J. Preparation of alkenes
13.K. Physical and chemical properties of alkenes
13.L. Mechanism of antimarkovnikov addition
13.M. Mechanism of Markovnikov addition and oxidation
13.N. Ozonolysis
13.O. Alkynes: isomerism, structure of triple bond
13.P. Preparation of alkynes
13.Q. Physical properties of alkynes
13.R. Acidity of alkynes
13.S. Addition reaction and polymerisation
13.T. Aromatic compound: Nomenclature
13.U. Isomerism, structure of benzene
13.V. Resonance, aromaticity and stability of benzene
13.W. Preparation of benzene
13.X. Physical and chemical properties of benzene
13.Y. Mechanism of electrophilic substitution reaction
13.Z. Friedel Crtaft’s alkylation and caylation reaction
13.Z1. Directive influence of functional group in monosubstituted benzene
13.Z2. Carcenoginicty and toxicity
14.A. Environmental pollution
14.B. Atmospheirc pollution (tropospheric pollution): Gaseous pollutants,particulate pollutants
14.C. Global warming and greenhouse effect
14.D. Acid rain
14.E. Ozone hole
14.F. Water pollution: causes
14.G. International standard for drinking water
14.H. Soil pollution
14.I. Industrial waste
14.J. Strategies to control environmental pollution
14.K. Green chemistry introduction and application in day to day life
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CBSE- Grade 11 Physics Syllabus

CBSE is a well known and reputed board and provides standard education to all the students by imparting comprehensive syllabus in appropriate manner. Colscol Expert Teacher Team teach you online syllabus for class 11 Physics subject, designed after a proper study and research. Class 11 Physics syllabus is helpful as it provides adequate knowledge on concerned topics and units specified in the syllabus. The class 11 syllabus is available online and can be downloaded in any format easily

CBSE is also known for its flexible and well framed syllabus patterns that can be adapted by any kind of students of different potentials, and give every chance to score well in class 11 exams.


TOPICS

  1. Physical World
  2. Work, Energy and Power
  3. Thermal Properties of Matter
  4. Units and Measurement
  5. System of Particles and Rotational Motion
  6. Thermodynamics
  7. Motion in a Straight Line
  8. Motion in a Plane
  9. Kinetic Theory
  10. Gravitation
  11. Laws of Motion
  12. Oscillation
  13. Mechanical Properties of Solids
  14. Waves
  15. Mechanical Properties of Fluids

1.A. What is Physics?
1.B. Scope and excitement of Physics
1.C. Physics technology and society
1.D. Fundamental forces in nature
1.E. Nature of Physical laws

2.A. The Scalar product
2.B. Work
2.C. Kinetic energy
2.D. Work done by a variable force
2.E. Work energy theorem for variable force
2.F. Concept of potential energy
2.G. Conservation of mechanical energy
2.H. Vertical circular motion
2.I. Potential energy of spring
2.J. Various forms of energy
2.H. Law of conservation of energy
2.I. Power
2.J. Collisions: In one dimension and two dimension (elastic and non elastic)
3.A. Temperature and heat
3.B. Measurement of temperature
3.C. Ideal gas equation and absolute temperature
3.D. Thermal expansion
3.E. Specific heat capacity
3.F. Calorimetry
3.G. Change of state: boiling point
3.H. Change of state: melting point
3.I. Latent heat
3.J. Heat transfer: Conduction
3.K. Convection
3.L. Radiation
3.M. Black Body and Black Body Radiation
3.N. Black Body Radiation – Wein’s displacement Law
3.O. Black Body Radiation: Stefan Boltzmann law
3.P. Newton’s law of cooling
4.A. Introduction to International system of units
4.B. Measurement of length
4.C. Measurement of mass
4.D. Measurement of time
4.E. Accuracy and precision of measurements and errors in measurement
4.F. Absolute error, relative error and percentage error
4.G. Combination of errors
4.H. Significant figures
4.I. Dimension of physical quantity, dimension formula and equation
4.J. Dimensional analysis and application
5.A. What kind of a motion can a rigid body have
5.B. Center of mass
5.C. Motion of center of mass
5.D. Linear momentum of system of particle
5.E. Vector product of two vectors
5.F. Angular velocity and its relation with linear velocity
5.G. Torque
5.H. Angular momentum
5.I. Torque and angular momentum of system, law of conservation of angular momentum
5.J. Equilibrium of rigid body
5.K. Moment of inertia
5.L. Theorems of perpendicular and parallel axes
5.M. Kinematics of rotational motion around a fixed axis
5.N. Dynamics of rotational motion about a fixed axis
5.O. Angular momentum in case of rotation about fixed axis
5.P. Rolling motion
6.A. Thermal equilibrium and Zeroth law of thermodynamics
6.B. Heat, energy and work
6.C. First law of thermodynamics
6.D. Thermodynamic state variable and equation of state
6.E. Thermodynamic process
6.F. Heat engines
6.G. Refrigerator and heat pump
6.H. Second law of thermodynamics
6.I. Reversible and irreversible processes
6.J. Carnot’s engine
7.A. Position, path length and displacement
7.B. Average velocity and average
7.C. Instantaneous velocity and speed
7.D. Acceleration
7.E. Uniformly accelerated motion
7.F. Relative velocity
8.A. Scalars and Vectors
8.B. Position and displacement vectors
8.C. Equality of vectors
8.D. Multiplication of vector by real number
8.E. Addition and subtraction of vector: graphical method
8.F. Resolution of vectors
8.G. Vector addition- analytical method
8.H. Vector and scalar product
8.I. Motion in a plane with constant acceleration
8.J. Relative velocity in two dimension
8.K. Projectile motion
8.L. Uniform circular motion
9.A. Molecular nature of matter
9.B. Behavior of gases
9.C. Kinetic theory of gases: Assumptions
9.D. Kinetic theory of an ideal gas: Pressure of an ideal gas
9.E. Kinetic interpretation of temperature
9.F. Law of equi-partition of energy
9.G. Avogadro’s constant
9.H. Mean free path
10.A. Kepler’s law
10.B. Universal law of gravitation
10.C. The gravitational constant
10.D. Acceleration due to gravity of earth
10.E. Acceleration due to gravity above and below the earths surface
10.F. Gravitational potential energy
10.G. Escape speed
10.H. Earth satellite
10.I. Energy of an orbiting satellite
10.J. Weightlessness
11.A. Aristotle Fallacy
11.B. Law of inertia
11.C. Newton’s first law of motion
11.D. Newton’s second law of motion and momentum
11.E. Newton’s third law of motion
11.F. Conservation of momentum
11.G. Equilibrium of a particle
11.H. Static and kinetic friction
11.I. Law of friction
11.J. Rolling friction
11.K. Circular motion
11.L. Solving problems in mechanics
12.A. Periodic and oscillatory motion
12.B. Simple harmonic motion
12.C. Simple harmonic motion and uniform circular motion
12.D. Velocity and acceleration in simple harmonic motion
12.E. Force law for simple harmonic motion
12.F. Energy in simple harmonic motion
12.G. Some systems executing simple harmonic motion: oscillation due to spring
12.H. The simple pendulum
12.I. Damped simple harmonic motion
12.J. Forced oscillation and resonance
13.A. Elastic behavior of solids
13.B. Stress and strain
13.C. Hooke’s law and the stress strain curve
13.D. Elastic moduli: Young’s modulus
13.E. Shear modulus
13.F. Bulk modulus
13.G. Elastic energy
13.H. Application of elastic behavior of materials
14.A. Transverse and longitudinal waves
14.B. Displacement relation in a progressive wave
14.C. Period angular frequency and frequency
14.D. Speed of travelling wave
14.E. Principle of superposition of waves
14.F. Reflection of waves
14.G. Standing waves and normal modes
14.H. Beats
14.I. Doppler effect
15.A. Pressure
15.B. Pascal’s law, variation of pressure with depth
15.C. Atmospheric pressure and Gauge pressure
15.D. Hydraulic machines
15.E. Streamline flow
15.F. Bernouli’s principle
15.G. Speed of efflux, Venturimeter
15.H. Dynamic lift
15.I.  Viscosity
15.J. Reynold’s number
15.K. Surface tension
15.L. Surface energy
15.M. Pressure in drop and bubbles, Capillary rise
15.N. Detergents and surface tension
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CBSE Syllabus Subjects

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CBSE Syllabus contains the list of topics and subtopics to be covered in the course of study during an academic year. It includes summary and list of chapters to be studied during teaching and learning process in particular grade or class. All the national entrance are conducted based on this syllabus. Central Board Of Secondary Education issues syllabus for classes 6-12 every year. Right from the basic information to detailed one, it contains all the information needed by a student and the teacher.

Colscol provides teachers for CBSE syllabus for class 3 to grade 12 in a detailed manner along with marking scheme. It is important to know the syllabus before starting the preparation. So, keeping that in mind we provide an elaborate view of the syllabus along with an interesting article about each topic. This helps students to understand what the topic is about and gives them clear idea on what they are going to read.

Have a look at the CBSE syllabus below, read what all topics you have to cover from each lesson and start your preparation accordingly. Also, know the marking scheme for each topic and focus more on the topics which are allocated more marks.

Colscol also provides  CBSE Sample Papers, chapter wise test series, important questions, NCERT Solutions and Problem Solving Assessment papers to help you prepare well and clear your board exams with flying colors.
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