NERIST 3 syllabus

I want to get information about the NERIST NEE III Chemistry Syllabus, eligibility as well as Exam pattern. So here can you provide me information about it?

[Shaleen]

As per your request here I am providing you information about the NERIST NEE III Chemistry Syllabus, eligibility as well as Exam pattern.

NERIST NEE III Chemistry Syllabus:
Physical Chemistry:

States of Matter: Gaseous State: Postulates of kinetic theory of ideal gases; Derivation of kinetic equation; Derivation of kinetic equation; Derivation of Ideal gas equation; continuity of states; liquefaction of gases. Solid state: Structure of solids; unit cell; fcc; ccp; structure of solids.

Solution and colloidal solution: Concentration of solutions: Mass percent; Mass fraction; Mole fraction; Molality; Normality; Molarity. Dilute Solutions: Raoult’s law; its statement and explanation; ideal and non-ideal solution; Colligative properties; Relative lowering of vapour pressure; elevation in boiling; Depression in freezing point; Osmotic pressure and its determination; Determination of molecular masses based on colligative properties; Van’t Hoff theory of dilute Van’t Hoff factor.

Colloidal Solutions: Definitions; Classfication and Preparation of colloidal solutions; properties of colloidal state: Tyndall effect; Electrophoresis; Brownian movement; Protective colloids.

Thermodynamics and Thermochemistry: First law of Thermodynamics, mathematical formulation of the law; Isothermal and adiabatic changes; relation between heat capacitors at constant pressure and constant volume; second law of thermodynamics: Carnot cycle and derivation of an expression for efficiency of a reversible engine. Concept and physical significance of Enthropy; Gibbs energy and work- function relation; Gibbs energy change and chemical spontaneity. Thermochemistry: Heats of reaction; Hess’s law of constant heat summation.

Kinetics and Chemical Equilibrium: Rate of reaction; law of mass action; velocity constant. Reversible reactions and chemical equilibrium; Equilibrium constant. Le Chatelier’s principle (statement; explanation and its industrial applications). Molecularity and order of reaction; First and Second order of reactions; Rate law equation and mechanism of reactions.

Ionic Equilibria: Modern Ionic theory; Modern concepts on acids and bases: Strength of acids and bases; Ionic product for water; pH scale. Common-ion effect and Solubility product; their applications in qualitative inorganic analysis and indicators.
Inorganic Chemistry:

Atomic Structure and Chemical Bonding: Electrons; protons; and neutrons, their charges and relative masses. The early models of the atom. Rutherford’s model, Hydrogen spectra; Failure of Rutherford’s model. Bohr’s model of hydrogen and hydrogen like atom; Dual nature of electron; de-Broglie equation Uncertainty principle. Quantum numbers (i.e. quantum numbers and their application to electronic structure of atoms); Concept of atomic orbital; Pauli’s exclusion principle; and Hund’s rule; Aufbau principle.

Ionic Bonds: Definition; factors influencing the formation of ionic compounds; Lattice energy of ionic compounds. Covalent Bonds: Nature of covalent bond (lewis concept); concept of orbital overlap in bond formation; Sigma and pi bonds; Hybridization of atomic orbital; properties of covalent compounds; structure of simple molecules and Co-ordinate covalent bonds: lewis concept on the basis of hybridization; properties of co-ordinate covalent compounds.

Metallic bonds: Bonding in metals (elementary treatment only) insulators, Conductors and Semi-conductor; Extrinsic semi-conductors (n-type and p-type) Hydrogen Bond: types of bond; consequences of hydrogen bonding.

Periodic Properties of Elements: Mendeleef’s periodic table and periodic law; Long form of periodic table; its merits and demerits. General characteristics; Properties of s-block; p-block and d-block elements. Trends of periodic properties of elements such as atomic volume, atomic radii; ionization potential; electron affinity and electro negativity in periodic table (qualitative treatment only)

Metallurgy: General principles of extraction of metals; occurrence of metals; sources of different metals; general method of extraction of metals by pyrometallurgical process and by electrolysis (different principles only)

Ferrous metallurgy: Ores of iron; Metallurgy of iron and manufacture of steel. Properties of Cast iron; Wrought iron; Steel; Effects of Carbon; silicon; phosphorus; sulphur; manganese on cast iron and steel.

Non ferrous metallurgy: Ores of aluminium and copper; Metallurgy of aluminium and copper; Properties and uses of Lead; Zinc, Tin and Chronium.

Alloys: Effects of carbon and other alloying elements on the properties of steel. Composition and uses of the following alloys: Brass, Bronze, German silver; Bell metal; Gun metal; Duralumin; Naganin; Type metal; Nichrome and Solder.

The Chemistry of some chemicals: Ammonia; Nitric Acid; Sulphuric Acid; Hydrochloric acid; Hydrogen and Oxygen.
Organic Chemistry:

Introduction: Classification and nomenclature of organic compounds; Qualitative detection of Nitrogen; Sulphur and Halogens.

Hydrocarbons: Saturated and unsaturated aliphatic hydrocarbons. Preparation and properties with special reference to methane; ethane; ethylene; acetylene. Aromatic hydrocarbons: preparation and properties of benzene; Structure of benzene.

Haloalkanes and Haloarenes: Preparation and properties and uses of haloalkanes and polyhalogen derivatives.

Compounds with functional groups containing oxygen: General methods of preparation and properties of Alcohols and phenols, Aldehydes and ketones; Carboxylic acid and acid derivatives. Compounds with functional groups containing nitrogen: Preparation and properties of Nitro compounds; Amines and Azo-compounds.

Industry Chemistry: Plastics & Polymers: Definition of a polymer; Polymerization (addition and condensation); Thermoplastic and thermosetting resins; some commercially important plastics. Rubbers and their vulcanization

Fuels:
Definition of fuel; classification of fuels with examples; Calorific value (gross and net). Solid fuels: Different type of solids fuels; ignition point; Carbonization of coal; Destructive distillation of wood (name of different product only). Liquid fuels: Fractional distillation of crude oil (only names of different fractions; boiling ranges and uses of different fractions); Properties of liquid fuels: Flash point; power point; specific gravity and carbon residue; Octane and cetane number. Gaseous fuels: Different commercial gaseous fuels with their composition and calorific value; Manufacture of producer gas and Water gas (principles with physic-chemical reactions only)

Water:
Hard and Soft water, Boiler feed water; Scale formation; Priming and foaming, Caustic embrittlement; Water softening methods; treatment of water for town supply and sewage disposal.

Corrosion and its protection:
Definition, theories of corrosion; Factors affecting rate of corrosion; Rusting of iron; Demerits of corrosion; Prevention of corrosion by various methods

Environmental Pollution:
Air and water pollution: causes and remedy.


Eligibility for NERIST NEE III

The admission to Degree Module in engineering is made in the following disciplines/branches:-

1. Agricultural Engineering

2. Civil Engineering

3. Computer Science & Engineering

4. Electrical Engineering

5. Electronics & Communication Engineering

6. Mechanical Engineering

Maximum Age Limit:

40 years as on 1st August of respective year for general category and 45 years for SC/ST/PH and 43 years for OBC and female candidates.

Exam pattern;
Section Subject Marks Marks/Question
A Physics 25 25 questions of 1 mark

B Chemistry 25 25 questions of 1 mark

C Biology 25 25 questions of 1 mark

D Mathematics 75 25 questions of 1 mark

25 questions of 2 marks