JKBOPEE CET Chemistry syllabus 2017 | JKBOPEE Chemistry syllabus 2017 | Jammu & Kashmir CET Chemistry syllabus 2017
The Chemistry subject is also a compulsory for both engineering and medical stream such as physics. Here we mention JKBOPEE CET Chemistry syllabus 2017 for JKBOPEE cet 2017 exam; please read it very carefully.UNIT 1: CHEMICAL ARITHMETIC & ATOMIC STRUCTURE (Marks: 03)
Laws of chemical combination, Mole concept (numericals) Percentage composition, Chemical reactions, Stoichiometry and calculations based on stoichiometry. Atomic structure:- Bohr‘s model of Hydrogen atom, Quantum numbers, Pauli‘s exclusion principle, Hund‘s rule and Aufbau principle. Heisenberg‘s uncertainty principle, de-Broglie wave equation and its significance.
Acids and bases: Acid base equilibria. Bronsted-Lowry and Lewis concept, of acids and bases. Ionic product of water. pH and pOH scales, pKa & pKb values, Solubility product, Buffer solutions Common ion effect, Hydrolysis of salts
UNIT 3: CHEMICAL KINETICS (Marks: 02)
Rate of chemical reaction, Average and instantaneous rate, Factors effecting rate of reaction, Order and molecularity of reaction, Integrated rate equation and Half-life period (for zero and first order) reaction, Activation energy and Arrhenius equation.
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JKBOPEE CET Chemistry syllabus 2017
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UNIT 4: SOLUTIONS (Marks: 02)Vapour pressure, Raoult‘s law, Ideal and Non-ideal solutions, Colligative properties.
Determination of molecular mass of non-volatile solutes through colligative properties.
Abnormal molecular masses and Van‘t Hoff Factor.
UNIT 5: CHEMICAL THERMODYNAMICS (Marks: 04)
Energy changes taking place during chemical reactions, Internal Energy and Enthalpy changes, Enthalp y of combustion,
Solution and Neutralization.
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Spontaneity of a chemical reaction and Thermodynamic equilibrium.
UNIT 6: REDOX REACTIONS AND ELECTROCHEMISTRY (Marks: 03)
Dependence of electrode and cell potential on concentration (Nernst Equation), Electrode potential as a criteria for product
formation in electrolysis. E.M.F. of Galvanic cell, Relationship between free energy change and E.M.F. of a cell. Definition
and units of Equivalent, Molar and Specific conductivity.
UNIT 7: SOLID STATE & STATES OF MATTER (Marks: 04)
Boyle‘s Law, Charle‘s law, Dalton‘s law of partial pressure, Graham‘s law of diffusion of gases.
Causes of deviation from ideal behaviour, ideal gas equation and nature of ‗R‘, Vander Waal‘s equation, surface tension and
viscosity of liquids.
Crystalline and amorphous solids, Crystal lattice, Crystal types, Packing efficiency, calculation of density of unit cell, Number
of atoms per unit cell in a cubic cell. Co-ordination number, Stoichiometric defects: Schottky, Frenkel and interstitial.
Properties of solids: Electrical, Magnetic & Dielectric.
UNIT 8: SURFACE CHEMISTRY (Marks: 02)
Freundlich Adsorption isotherm, preparation of colloidal solutions by physical and chemical method. Electrical properties
(cataphoresis, electroosmosis, coagulation and protective colloids) Homogeneous and Heterogeneous Catalysis.
UNIT 9: PERIODIC PROPERTIES (Marks: 02)
Classification of elements as s, p, d, and f block elements. Variation of Ionization energy, Electron affinity, Electronegati vity,
Atomic and Ionic radii along the period and down the group in the periodic table.
UNIT 10: CHEMICAL BONDING AND MOLECULAR STRUCTURE (Marks: 04)
Types of chemical bonds, Ionic & covalent bonds, Bond parameters, Quantum theory of covalent bond, pi and sigma bonds,
Hybridization involving s, p and d-orbitals, Dipole moments and hydrogen bond.
VSEPR: Shapes of simple molecules ( H
2O, NH3, SO2, CO2, PCl3, PCl5 , CIF3 , BF3 , SF4 , XeF2 , XeF4 ). Molecular orbital theory: Energy Levels and M.O. diagrams of H 2, H2 + ,He2, O2, O1-2,O2 2-& F2.
Bond order and its significance.
UNIT 11: CHEMISTRY OF REPRESENTATIVE ELEMENTS (Marks: 04)
S and P Block Elements: Electron configuration, Oxidation states and trends in various properties like ionization energy,
electron affinity, atomic radii, electronegativity and diagonal relationship.
Alkali metals: Hydration of ions, action with ammonia, flame colouration, solubility of hydroxides, carbonates and sulphates.
Alkaline Earth Metals: Solubility of carbonates, hydroxides and sulphates.
Boron Family: Structure of halides, relative acid strength of trihalides of boron.
Carbon family: Hydrides and oxides.
Nitrogen family: Oxides of Nitrogen and Phosphorous, reducing nature, basic strength and boiling points of their halides.
Oxygen family: volatility, thermal stability, acid character, reducing character and bond angles of their hydrides, oxyacids of
sulphur.
Halogen family: Bond energy, colour and oxidizing power, boiling point, acid strength and dipole moment, thermal stability,
reducing power of hydracids, relative acidity and oxidizing power of oxyacids of halogens.
UNIT 12: TRANSITION ELEMENTS INCLUDING LANTHANOIDES (Marks: 02)
Electron configuration, Oxidation states, Colour, and Magnetic properties.
Oxides of Vanadium, Chromium and Manganese Alloys of Copper, Silver and Iron.
Metallurgy of Iron, Copper and Zinc.
UNIT 13: CO-ORDINATION CHEMISTRY (Marks: 04)
Introduction, Ligands, Co-ordination Number, IUPAC Nomenclature.
Bonding theories: Werner‘s, VBT and CFT.
Isomerism in Co-ordination compounds (Ionization, Linkage, Hydrate, Geometrical and Optical).
Applications of Co-ordination complexes in Biology, Medicine and Analytical Chemistry.
UNIT 14: NOMENCLATURE AND BASIC CONCEPTS IN ORGANIC CHEMISTRY (Marks: 03)
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Nomenclature of organic compounds (monofunctional and polyfunctional groups), inductive,eletromeric resonance and
hyperconjugation effects, reaction intermediates, carbocations, carbanions and free radicals with their general stability order, types of organic reactions (addition, substitution, elimination and redox reactions), aromaticity on the basis of Huckel rule .
Ortho, meta and para directing groups.
UNIT 15: HYDROCARBONS (Marks: 03)
Structural isomerism in alkanes, alkenes, alkynes and arenes, stereoisomerism: geometrical and optical isomerism, chirality,
origin of chirality, specific rotation, racemisation and resolution, conformations in ethane and cyclohexane, relative configuration (D,L-Nomenclature), absolute (R and S system of nomenclature).
UNIT 16: ORGANIC CHEMISTRY BASED ON FUNCTIONAL GROUP-I (Marks: 02)
Haloalkanes, haloarenes, alcohols and phenols: General methods of preparation and properties. Choloroform and Iodoform.
UNIT 17: ORGANIC CHEMISTRY BASED ON FUNCTION GROUP-II (Marks: 03)
Ethers, Aldehydes, Ketones, Monocarboxylic acids: General methods of preparation and properties. Derivatives of monocarboxylic acids like acid halides, acid anhydrides acid amides and esters.
Relative strength of carboxylic acids
UNIT 18: ORGANIC CHEMISTRY BASED ON FUNCTIONAL GROUP-III (Marks: 03)
Cyanides, Isocyanides, Nitrocompounds and Amines: General methods of preparation and properties. Relative basic
character of amines.
UNIT 19: MOLECULES OF LIFE (Marks: 03)
Carbohydrates: Definition, Classification, Mutarotation, Structure of Animo -acids, Peptides and Proteins (Molish and
ninhydrin tests). Classification and uses of vitamins. Chemicals in medicine and health care, Dyes and drugs. Chemical
reactions in atmosphere, ozone depletion and its effects. Acid rain, Green House effect & Global warming.
UNIT 20: POLYMERS (Marks: 03)
Introduction, Classification, Methods of Polymerisation (Addition, Condensation, Free Radical, Cationic & Anionic).
Natural & Synthetic Polymers: Polythene, Nylon, Polyster, Bakelite and Rubber.
Biodegradable and Non-Biodegradable Polymers.
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