M.Sc in Chemistry Entrance Exam Syllabus

I want to know Thapar University M.Sc in Chemistry Entrance Exam Syllabus, please provide here???

[Raman Vij]

You need Thapar University M.Sc in Chemistry Entrance Exam Syllabus, I am giving here;

Main Areas covered in M.Sc Chemistry Entrance Exam
Atomic Structure, Chemical Bonding, & Periodic Properties
Bio-molecules
Chemical Kinetics and Photochemistry
Coordination & Bioinorganic Chemistry
Electrochemistry
Functional Groups
Fundamentals of Organic Chemistry
Hydrocarbons and their Halogen Derivatives
Laws of Thermodynamics and Chemical Equilibrium
Nitrogen and Oxygen bearing
Physical Chemistry
Qualitative and Quantitative Analyses
Quantum Chemistry and Spectroscopy
S & P - Block Elements
Spectroscopy
States of Matter
Transition & Inner Transition

Atomic Structure, Chemical Bonding, & Periodic Properties
Wave Mechanical Concept of Atomic Structure
Heisenberg’s Uncertainty principle
Schrödinger wave equation
Quantum numbers
Chemical Bonding
Ionic Solids
Metallic bond
Valence bond theory
Week interactions
Periodic properties

S & P - Block Elements
Boron Hydrides
Carbides
Clathrates
Fluorides and Oxides of Xenon
Halogens
Hydrides
Lithium and Beryllium
Nitrogen Compounds
Noble gases
P – Block Elements
S – Block Elements

Transition & Inner Transition Elements
Transition Elements
Physico-chemical properties
Variable oxidation states
Spectral and Magnetic properties
Inner Transition Elements
Lanthanoids
Ionic radii and Lanthanide contraction
Separation of lanthanoids
Actinoids

Coordination & Bioinorganic Chemistry
Effective atomic number
Coordination Compounds
Bioinorganic Chemistry

Qualitative & Quantitative Analyses
Qualitative Analysis
Types of Qualitative Analysis
Analysis of Inorganic Mixtures
Quantitative Analysis
Titrimetry

Fundamentals of Organic Chemistry & Isomerism
Carbocations
Concept of stereo isomerism
Electrometric Effects
Huckel’s rule and its significance
Hybridization
Inductive Effects
Requirements of aromaticity
Resonance

Hydrocarbons and their Halogen Derivatives
Acidity of alkynes
Aromatic Electrophilic substitutions
Hoffman rule
Mechanism of electrophilic and nucleophilic addition
Methods of formation of Alkenes
Saytzeff rule

Nitrogen and Oxygen bearing Functional Groups
Condensation with Ammonia and amines
Mechanism of Electrophilic aromatic substitution in arylamines
Methods of formation of ethers and epoxides
Nucleophilic substitution in nitroarenes
Preparation, properties and factors affecting basicity of amines
Reactions of arenediazonium salts
Reaction of aryl amines with nitrous acid
Reduction of nitro compounds

Spectroscopy
Infrared spectroscopy
Nuclear Magnetic resonance (NMR) spectroscopy

Bio-molecules
Carbohydrates
Proteins
Lipids

States of Matter
Gaseous State
Liquid State
Solid State
Liquid crystals

Chemical Kinetics and Photochemistry
Isolation methods
Techniques for kinetic investigation
Conductometry
Potentiometry
Polarimetry
Spectrophotometry
Effect of temperature on rate of reaction
Arrhenius equation
Theories of chemical kinetics
Photochemical decomposition of hydrogen iodide
Photochemistry

Laws of Thermodynamics and Chemical Equilibrium
First Law of thermodynamics
Second law of thermodynamics
Third law of thermodynamics

Electrochemistry
Migration of ions and Kohlrausch law
Debye-Huckel-Onsager’s equation
Hittorf’s method and moving boundary method
Application of conductivity measurements
Types of reversible electrodes
Electrode reactions
Nernst equation
Electrolytic and Galvanic cells
Measurement of EMF of a cell

Quantum Chemistry and Spectroscopy
Black-body radiation
De Broglie hypothesis
Hamiltonian operator
Heisenberg’s Uncertainty principle
Hermitian operator
Photoelectric effect
Planck’s radiation law
Quantum numbers and their importance
Schrodinger wave equation

Spectroscopy
Electromagnetic radiation
Rotational Spectroscopy
Vibrational Spectroscopy

Contact;
थापर युनिवर्सिटी
Nabha Road ,, Patiala, Punjab 147004 ‎
0175 239 3021

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Hey, will you provide me syllabus for CUCET entrance exam for M. Sc. Chemistry Offered by CU Rajasthan?

[Kiran Chandar]

As you want I am here providing you syllabus for CUCET entrance exam for M. Sc. Chemistry Offered by CU Rajasthan.

CUCET Syllabus for CUCET M. Sc. Chemistry (MSC) :

The Question paper will have common Part A and subject specific Part B .

Part A: It will be of 45 minutes duration and will have 35 Multiple Choice Questions (MCQs),with four options: only one correct. Part A is intended to test the applicants; general awareness, reasoning, basic language skills (English) and analytical skills.

Part B: will be subject specific, of 75 minutes duration and will have 65 MCQs with four -


Syllabus / Topics for Subject Specific Part B:

Inorganic Chemistry :

Periodic table: Periodic classification of elements, periodicity in properties. General methods of isolation and purification of elements.

Chemical bonding: Types of bonding. VSEPR theory and shapes of molecules. Hybridization, VBT and MOT of simple molecules, dipole moment. Ionic solids – lattice energy. Structure of diamond and graphite.

Main group elements (s and p block elements): Chemistry with emphasis on group relationship and gradation in properties; structure of electron deficient compounds of main group elements and application of main group elements.

Transition and inner transition elements (d and f block elements): Characteristics of d- and f-block elements.

Coordination compounds of first row transition elements, bonding in coordination compounds – VBT and CFT of tetrahedral and octahedral complexes. Application of CFT to spectral and magnetic properties. Electronic spectra of coordination compounds.

Organometallic compounds: Concept of hepticity, 18 electron rule. Carbonyl compounds of first row of transition metals.
Non aqueous solvents: General characteristics, reactions with reference to ammonia and liquid sulphur dioxide.

Acids and Bases: Lewis and HSAB concepts Nuclear Chemistry: Radioactivity, nuclear reactions, applications of isotopes

Organic Chemistry Nomenclature of Organic compounds. Mechanism of Organic reactions: Electronic effects in Organic molecules – polarization effect (Inductive effect), polarizability effect (Electromeric effect), resonance, hyperconjugation.

Formal charge. Generation, structure and general reactions of reactive intermediates –Carbocation, carbanion, carbon radical.


Stereochemistry: Types of isomerism. Projection formulae, chirality, assigning stereochemical descriptors to chiral centres and geometric isomers.

Optical isomerism in compounds containing one and two asymmetric centres. Conformations of cyclohexanes. Aromaticity and Huckel’s rule: Mono and bicyclic carbocyclic aromatic hydrocarbons and their electrophilic substitution reactions.

Synthetic chemistry: Methods of preparation and characteristic reactions of alkanes, alkenes, alkynes (including their cyclic analogues), arenes and their simple functional derivatives, such as alkyl, halo, nitro, hydroxyl, alkoxy, formyl, amino, carbonyl, carboxyl (and carboxylic acid derivatives). Functional group interconversions. Grignard reagents, acetoacetic and malonic ester chemistry. Synthesis of simple compounds. Structure determination and synthetic problems using chemical reactions.

Mechanism (with stereochemistry): Aliphatic nucleophilic substitution, elimination, enolate reactions, Claisen condensation, esterification and ester hydrolysis, Cannizzaro reaction, benzoin condensation, Perkin reaction, Claisen rearrangement, Beckmann rearrangement, Wagner-Meerwein rearrangement. Carbohydrates: Classification, nomenclature.

Open and cyclic formulae. Chemistry of glucose. Amino acids and peptides: Structure, stereochemistry, and characteristics reactions of amino acids. Structure of peptides.

Heterocyclic chemistry: Monocyclic 5-membered heteroaromatic compounds with one hetero atom (S,O,N) and pyridine. Their nomenclature, electronic structure, aromaticity, characteristic properties and general reactions. Physical chemistry

Atomic structure: Fundamental particles. Bohr’s theory of hydrogen atom; Wave-particle duality; Uncertainty principles; Schrodinger’s wave equation; Quantum numbers, shapes of orbitals; Hund’s rule and Pauli’s exclusion principle. Idea of electromagnetic spectrum. Theory of gases: Kinetic theory of gases. Real and ideal gases, critical phenomenon.

Chemical thermodynamics: Reversible and irreversible processes. First law and its application to ideal and nonideal gases. Thermochemistry. Second law. Entropy and free energy, Criteria for spontaneity.

Chemical and Phase equilibria: Law of mass action; KpKc, Kx and Kn Effect of temperature on K; Ionic equilibria in solutions;pH and buffer solutions; Hydrolysis; Solubility product; Phase equilibria– Phase rule and its application to one-component and two-component systems; Colligative properties.

Electrochemistry: Conductance and its applications; Transport number; Galvanic cells; types of electrodes, EMF and Free energy.

Liquid junction potential and concentration cells. Application of emf measurement for determination of K, ΔG, ΔH, ΔS. Stability of complexes and determination of solubility product.

Chemical kinetics: Reactions of various order, Arrhenius equation, Collision theory; Theory of absolute reaction rate; Chain reactions – Normal and branched chain reactions; Enzyme kinetics; Photophysical and photochemical processes; Catalysis.

Quantum chemistry: Black body radiation, Elementary quantum chemistry, state function, operators, eigen values and eigen functions. Analytical Chemistry Classification of analytical methods. Performance characteristics of analytical methods.

Errors and their types. Acid-base titrations and acid-base indicators, redox titrations, precipitation and complexometric titrations, conductometric and potentiometric titrations. Basics of UV-VIS spectroscopy, Lambert-Beers law.