(i) Normality, molality, molarity, mole fraction, as measures of concentration. (ii) Raoult's law and colligative properties. (iii) Nonvolatile, non electrolytic solute. (iii) Nonvolatile, non electrolytic solute. (iv) Dissociation - Electrolytic solute. (iv) Dissociation - Electrolytic solute. (v) Association. (vi) Relative molecular mass of non-volatile substances:(a) By relative lowering of vapour pressure. (b) Depression in freezing point. (c) Elevation in boiling point method. (d) Osmotic pressure and its application in the determination of relative molecular mass. (e) van’t Hoff factor. (f) van’t Hoff equation and its interpretation. (g) Simple numerical problems on different methods mentioned above for the determination of molecular masses. Abnormal molecular masses in case of electrolytes and in case of solutes which associate.
1. Relative Molecular Mass and Mole 2. States of Matter: Structure and Properties Solid State - 1. Crystalline and amorphous substances; lattice; unit cell; 3–D packing of atoms in a crystal lattice; relation between radius, edge length and nearest neighbour distance of atoms in a unit cell; density of a unit cell; interstitial void; imperfections in solids, ionic, metallic and atomic solids, electrical and magnetic properties. 3. Chemical Kinetics 4. Chemical Equilibria 5. Ionic Equilibria 6. Electrochemistry 7. Coordination Compounds 8. Chemistry of p-Block Elements 9. Preparation/ Manufacture, Properties and Uses of Compounds of Groups 16, 17 10. Chemistry of Transition and Inner-Transition Elements 11. Alkyl and Aryl Halides 12. Alcohols and Phenols 13. Ethers, Carbonyl Compounds. 14. Carboxylic acids and Acid Derivatives 15. Cyanides, Isocyanides, Nitro compounds, Amines and Diazonium Salts 16. Polymers 17. Biomolecules