Describe periodic properties of elements; understand formation of ionic bonding & factors affecting ionic bond formation.
Understand electronic configuration, ionization energy, and oxidation state of S and P block elements.
Identity electronic displacement taking place in the molecule by some effects, generation of reactive intermediates, their stability and reactions.
Interpret aromaticity and based on that distinguish aromatic, anti-aromatic and non- aromatic compounds, able to know the structure of benzene and its electrophilic substitution reaction.
Understand limitation of first law of thermodynamics and needs of second law of thermodynamics and know the concept of entropy.
Know the postulates of kinetic theory of gases, understand phase rule and application of phase rule on water system and sulphur system.
Define polarization and its application, directional nature of covalent bond, concepts of hybridization and know the theory of acids and bases.
Understand requirement of good solvent and classification of solvents.
Describe synthesis and chemical reactions of alkyl halides, aryl halides and alcohol.
Understand methods of formation of phenols, ether and epoxide and their reactions catalyzed by acid and alkali.
Identify polar and non-polar molecules and know paramagnetic and diamagnetic substances.
Describe rate of reaction in terms of change in concentration and how the rate of chemical reaction changes as a function of time.
Understand covalent bonding, metallic bonding and describe structure of molecule with regular & distorted geometry by using VSEPR theory and know about gravimetric and volumetric analysis.
Describe various reactions, acidity and reactivity involved in aldehydes ketone and carboxylic acid.
Identify importance of stereochemistry in organic chemistry & apply the knowledge gained to a variety of chemical problems.
Define work function, Gibbs free energy and application of phase equillibria in miscible and immiscible liquids.
Understand determination of surface tension, viscosity and effects of temperature on surface tension and viscosity.
Understand chemistry of transition elements with reference to electronic configuration, atomic and ionic size, ionization energy and know about extraction of elements.
Define inner transition elements and know their properties and general principle of metallurgy.
Describe reactions of poly nuclear hydrocarbon, synthesis of higher acids with the help of reactive methylene compounds, constitution of glucose, conversion of glucose to fructose etc.
Know synthesis of aromatic nitro compounds, amino compounds and diazonium salts and their reactions.
Understand colligative properties of dilute solution and know to determination of molecular weight of solute.
Identity symmetry in crystal and elements of symmetry in crystals, also know the laws of symmetry.
Understand key features of co-ordination compounds including variety of structures and know the concepts of oxidation number, coordination number, ligands, chelates and stability of complex.
Knowledge of crystal field theory to understand splitting in complexes and factors affecting in crystal field splitting.
Understand heterocyclic compounds especially about their synthesis, reactivity and application of heterocyclic compound in advanced chemical synthesis.
Classify dyes on the basis of structure and mode of application, preparation and uses of dyes, drugs and pesticides.
Understand photochemical and thermal reactions by interaction of radiation with matter.
Identify the electric and magnetic properties of radiation and know the spectroscopic techniques for understanding the atomic structure and structure of molecule.
Understand thermodynamic and kinetic stability of complexes and geometry of complexes. Know about spectrophotometric technique for determination of concentration of metal ion. Define and classify chromatographic techniques.
Know basics of organometallic chemistry, inorganic polymers and bio-inorganic chemistry.
Identify structure of compound by use of electronic spectroscopy and infrared spectroscopy and know how to interpret spectra.
Understand the phenomena of Nuclear Magnetic Resonance spectroscopy and mass spectrometry.
Understand limitation of classical mechanics at molecular length scales and difference between classical and quantum mechanics.
Identify inter conversions of chemical energy and electrical energy by knowing electrochemistry and application of radio isotopes in industry, agriculture, medicine & biosciences.