ICT-CHEMISTRY



CHEMISTRY - INTRODUCTION

Chemistry is the twin brother of physics and together they give a breathtaking sweep of the physical world. Chemistry at root penetrates into matter and talks about the chemical changes that take place , the order in them and the deepest reasons for the chemical changes!

Chemistry thus is a great power and the modern civilized world cannot be imagined without the magnificence of the science of chemistry.

We have covered all the concepts needed to understand the chemical changes-both natural and man made - that happen all around us.

Happy learning and discovery!



INTRODUCTION TO DIGITAL ELCETRONICS AND NUMBER SYSTERMS

ANTHRACENE : PREPARATION, STRUCTURE AND PHYSICAL AND CHEMICAL PROPERTIES

PYRROLE

BENZENE

PHASE EQUILIBRIA

CHEMISTRY IN EVERYDAY LIFE

SYSTEMS OF VARIABLE COMPOSITION

SECOND LAW OF THERMODYNAMICS

SECOND LAW OF THERMODYNAMICS-II

CHEMICAL THERMODYNAMICS

EXPLORING MATERIAL CHEMISTRY

CALCULATION OF THERMODYNAMIC PARAMETERS

WORK, HEAT AND ENERGY

CHEMICAL THERMODYNAMICS

SYSTEMS OF VARIABLE COMPOSITION

THERMODYANAMICS

EQUILIBRIUM THERMODYNAMIC PROPERTIES – II

EQUILIBRIUM THERMODYNAMICS PROPERTIES-I

SPONTANEITY AND EQUILIBRIUM

AMINO ACID, PEPTIDES AND PROTEINS –II

ALIPHATIC AMINES –II

ISOMERISM

AMINO ACID, PEPTIDES AND PROTEINS

RESIDUAL ENTROPY, SPONTANEITY AND EQUILLIBRIUM

STATISTICAL INTERPRETATION OF ENTROPY

CHEMICAL THERMODYNAMICS

CHEMICAL REACTIVITY AND MECHANISM – AMINES

STEREOCHEMISTRY –II

STEREOCHEMISTRY – III

STEREOCHEMISTRY – IV

CARBOHYDRATES – I

CARBOHYDRATES – II

CARBOHYDRATES –III

CARBOHYDRATES –IV

CURRENT STATUS OF GENETICALLY MODIFIED CROPS IN INDIA

ORGANIC CHEMISTRY

ORGANIC CHEMISTRY-II

CLAUSIUS INEQUALITY AND ENTROPY

ENTROPY CHANGE AND THE THIRD LAW THERMODYNAMICS

ENTROPY AS A FUNCTION OF STATE VARIABLES

CHEMICAL REACTIVITY AND MECHANISM

JOULE-THOMSON EXPERIMENT

THERMOCHEMISTRY –I

THERMOCHEMISTRY – II

THERMOCHEMISTRY –III

THERMOCHEMISTRY –IV

NUCLEOPHILIC SUBSTITUTION REACTIONS : ALCHOHOLS AND ETHERS

NUCLEOPHILIC SUBSTITUTION REACTIONS

NUCLEOPHILIC SUBSTITUTION REACTION – II

EXPANSION WORK – II

EXPANSION WORK – III

CARBOXYLIC ACID DERIVATIVES – I

CARBOXYLIC ACID DERIVATIVES –II

SUBSTITUTION REACTIONS-I

SUBSTITUTION REACTIONS – II

SUBSTITUTION REACTIONS – III

SUBSTITUTION REACTION – IV

SUBSTITUTION REACTION –V

ALCOHOLS OR ALKANOLS – II

ALCOHALS OR ALKANOLS – III

THE FIRST LAW OF THERMODYNAMICS – II

CHEMICAL REACTIVITY AND MECHANISMS

CHEMICAL REACTIVITY AND MECHANISMS-II

EXPANSION WORK IN THERMODYNAMICS

CHEMICAL REACTIVITY AND MECHANISM-I

CHEMICAL REACTIVITY AND MECHANISM-II

CHEMICAL REACTIVITY AND MECHANISM-III

CHEMICAL REACTIVITY AND MECHANISM-IV

CHEMICAL REACTIVITY AND MECHANISMS-V

CHEMICAL REACTIVITY AND MECHANISMS-VI

CHEMICAL REACTIVITY AND MECHANISMS-VII

ANTIOXIDANT CHEMISTRY

QUANTUM CHEMISTRY – II

ORGANIC REACTIONS

THERMODYNAMICS : BASIC CONCEPTS

ALKYL HALIDES

STEREOCHEMISTRY OF ORGANIC COMPOUNDS-I

STEREOCHEMISTRY OF ORGANIC COMPOUNDS-II

STEREOCHEMISTRY OF ORGANIC COMPOUNDS – IV

ALDEHYDES AND KETONES

TRANSMISSION GENETICS MENDELISM

RADICAL REACTIONS

REACTION INTERMEDIATES

FATS, OILS AND DETERGENTS

CARBOXYLIC ACIDS – I

CARBOXYLIC ACIDS – II

CARBOXYLIC ACIDS – III

CLASSIFICATION AND NOMENCLATURE OF ORGANIC COMPOUNDS

CHEMICAL REACTIVITY AND MECHANISM - PART 1

CHEMICAL REACTIVITY AND MECHANISM - PART 2

REACTIVITY AND MECHANISM

NOMENCLATURE OF ORGANIC COMPOUNDS

GENERAL ORGANIC CHEMISTRY & INTRO. TO ORGANIC REACTION & THEIR MECHANISMS

QUANTUM CHEMISTRY

QUANTUM CHEMISTRY-I

QUANTUM CHEMISTRY-II

QUANTUM CHEMISTRY-III

CHEMISTRY : VIBRATIONAL SPECTROSCOPY

CHEMISTRY : SPECTROSCOPY - ATOMIC SPECTRA ( PART - 1 )

CHEMISTRY : SPECTROSCOPY - ATOMIC SPECTRA (PART- 2 )

CHEMISTRY : SPECTROSCOPY - MOLECULAR SPECTRA (PART 3)
 

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- FUNDAMENTALS OF QUANTUM MECHANICS – I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- FUNDAMENTALS OF QUANTUM MECHANICS – II

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- OPERATORS IN QUANTUM MECHANICS

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- PARTICLE IN A BOX

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- LINEAR HARMONIC OSCILLATOR I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- LINEAR HARMONIC OSCILLATOR-II

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- RIGID ROTOR-I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- RIGID ROTOR-II

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- HYDROGEN ATOM-I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- APPOROXIMATE METHODE- PERTURBATION THEORY

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- PERTURBATION THEORY – APPLICATION

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- HYDROGEN ATOM-IV

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- VARIATION METHOD-APPLICATIONS

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- THEORY OF ANGULAR MOMENTUM

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- EIGEN VALUES OF ANGULAR MOMENTUM- LADDER OPERATORS

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- EIGEN FUNCTIONS OF ANGULAR MOMENTUM

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- ADDITION OF ANGULAR MOMENTA-I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- ADDITION OF ANGULAR MOMENTA-II

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- PERTURBATION THEORY – APPLICATIONS

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- APPROXIMATE METHOD- VARIATION METHOD

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- INTRODUCTION TO ELECTRONIC STRUCTURE OF MOLECULES

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- MOLECULAR ORBITAL THEORY- I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- MOLECULAR ORBITAL THEORY- II

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- VALENCE BOND THEORY- I

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- VALENCE BOND THEORY- II

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- VALENCE BOND THEORY- III

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- HUCKEL MOLECULAR ORBITAL THEORY- INTRODUCTION

PHYSICAL CHEMISTRY -I (QUANTUM CHEMISTRY)- HUCKEL MOLECULAR ORBITAL THEORY- APPLICATION PART – I

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREO CHEMISTRY) 

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- REVISIT TO ELECTRONIC EFFECTS: INDUCTIVE AND MESOMERIC EFFECTS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- RESONANCE, CONJUGATION AND CROSS CONJUGATION

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- HYPER-CONJUGATION

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- APPLICATIONS OF ELECTRONIC EFFECTS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- TAUTOMERISM

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- BONDS WEAKER THAN COVALENT- ADDITION COMPOUNDS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- CYCLODEXTRINS – 1

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- CYCLODEXTRINS – 2

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- CATENANES AND ROTAXANES

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- SYMMETRY ELEMENTS AND OPERATIONS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- PROSTEREOISOMERISM (PROCHIRALITY)

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- THREO AND ERYTHRO ISMORES

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- METHODS OF RESOLUTION

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- STEREOSELECTIVE AND STREOSPECIFIC SYNTHESIS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- REGIOSELECTIVE SYNTHESIS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- CHEMOSELECTIVE SYNTHESIS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- ASYMMETRIC SYNTHESIS

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- STEREOISOMERISM ( ATROPISOMERISM) OF BIARYL

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- CHIRALITY AXIS- STEREOCHEMISTRY OF ALLENES

ORGANIC CHEMISTRY- I (NATURE OF BONDING AND STEREOCHEMISTRY)- CURTIN-HAMMETT PRINCIPLE


INORGANIC CHEMISTRY – I 

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- DΠ-PΠ BONDING

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- BENT RULE AND ENERGETICS OF HYBRIDISATION

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- METAL-LIGAND EQULIBRIA IN SOLUTION

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)-ENERGY PROFILE DIAGRAM

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)-ENERGY PROFILE DIAGRAM-II (APPLICATIONS AND LIMITATION)

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)-CHAMICAL REACTIVITY OF TRANSITION METAL COMPLEXES

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- INERT AND LABILE COMPLEXES : PART-1, VALENCE BOND THEORY APPROACH

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- INERT AND LABILE COMPLEXES : CRYSTAL FIELD THEORY APPROACH

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)-MACHANISM OF THE SUBSTITUTION REACTION

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- MACHANISM OF THE SUBSTITUTION REACTION - SUBSTITUTION REACTION IN SQUARE PLANER COMPLEXES

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- TRANS EFFECT (PRINCIPAL AND THEORIES)

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- TRANS EFFECT APPLICATION

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- REDOX REACTIONS ELETRON TRANSFER REACTIONS

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- MECHANISM OF REDOX REACTIONS : OUTER SPHERE REACTION

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- FACTORS AFFECTING OUTER SPHERE REACTIONS

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- MARCUS – HUSH THEORY

INORGANIC CHEMISTRY –I (STEREOCHEMISTRY, METAL-LIGAND EQUILIBRIA AND REACTION MECHANISM OF TRANSITION METAL COMPLEXES)- CROSS REACTIONS AND MARCUS HUSH THEORY 

INORGANIC CHEMISTRY-II (METAL-LIGAND BONDING, ELECTRONIC SPECTRA AND MAGNETIC PROPERTIES OF TRANSITION METAL COMPLEXES) 

INORGANIC CHEMISTRY-II - CRYSTAL FIELD THEORY

INORGANIC CHEMISTRY-II - CRYSTAL FIELD THEORY-II

INORGANIC CHEMISTRY-II - CRYSTAL FIELD THEORY-III

INORGANIC CHEMISTRY-II - CRYSTAL FIELD THEORY-IV - DISTORTION, COLOR & MAGNETISM

INORGANIC CHEMISTRY-II - MOLECULAR ORBITAL THEORY FOR OCTAHEDRAL COORDINATION COMPLEXES

INORGANIC CHEMISTRY-II - MOLECULAR ORBITAL THEORY-II

INORGANIC CHEMISTRY-II - MOLECULAR ORBITAL THEORY-III (SQUARE-PLANAR COMPLEXES)

INORGANIC CHEMISTRY-II - MOLECULAR ORBITAL THEORY-IV (TETRAHEDRAL COMPLEXES)

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-I

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-II

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-III

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-IV

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-V

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-VI

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-VII

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-VIII

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-IX

INORGANIC CHEMISTRY-II - ELECTRONIC SPECTRA OF COORDINATION COMPLEXES-X

INORGANIC CHEMISTRY-II - ISOMERISM PART-I

INORGANIC CHEMISTRY-II - ISOMERISM PART-II

INORGANIC CHEMISTRY-II - ISOMERISM PART-III

INORGANIC CHEMISTRY-II - ISOMERISM PART-IV

INORGANIC CHEMISTRY-II - STEREOCHEMICAL NOTATION IN COORDINATION CHEMISTRY

INORGANIC CHEMISTRY-II - OPTICAL ACTIVITY OF ENANTIOMERS

INORGANIC CHEMISTRY-II - SPECTROSCOPIC METHODS FOR DETERMINATION OF ABSOLUTE CONFIGURATION OF COORDINATION COMPLEXES

INORGANIC CHEMISTRY-II - ASSIGNMENT OF THE ABSOLUTE CONFIGURATION OF CHIRAL COORDINATION COMPLEXES

INORGANIC CHEMISTRY-II –PARAMAGNETISM

INORGANIC CHEMISTRY-II - SPIN CROSSOVER

INORGANIC CHEMISTRY-II - ANOMALOUS MAGNETIC MOMENT

INORGANIC CHEMISTRY-II - MODELS FOR ANOMALOUS MAGNETIC MOMENTS

INORGANIC CHEMISTRY-II - MAGNETIC EXCHANGE COUPLING PART – I

INORGANIC CHEMISTRY-II - MAGNETIC EXCHANGE COUPLING PART – II

ORGANIC CHEMISTRY-II

ORGANIC CHEMISTRY-II - TYPES OF ORGANIC REACTIONS

ORGANIC CHEMISTRY-II - OVERVIEW OF DIFFERENT TYPES OF ORGANIC REACTION MECHANISMS

ORGANIC CHEMISTRY-II - THERMODYNAMIC AND KINETIC REQUIREMENTS OF A REACTION

ORGANIC CHEMISTRY-II - INTERMEDIATES, TRANSITION STATES, POTENTIAL ENERGY DIAGRAMS AND HAMMOND’S POSTULATE

ORGANIC CHEMISTRY-II - METHODS OF DETERMINING MECHANISM AND ISOTOPE EFFECTS

ORGANIC CHEMISTRY-II - GENERATION, STRUCTURE, STABILITY AND REACTIVITY OF CARBOCATIONS

ORGANIC CHEMISTRY-II - GENERATION, STRUCTURE, STABILITY AND REACTIVITY OF CARBANIONS

ORGANIC CHEMISTRY-II - GENERATION, STRUCTURE, STABILITY AND REACTIVITY OF FREE RADICALS

ORGANIC CHEMISTRY-II - REACTIVE INTERMEDIATES CARBENES AND NITRENES

ORGANIC CHEMISTRY-II - LINEAR FREE ENERGY RELATIONSHIP, THE HAMMETT EQUATION AND SUBSTITUENT AND REACTION CONSTANTS

ORGANIC CHEMISTRY-II - INTRODUCTION TO SN2 REACTIONS

ORGANIC CHEMISTRY-II - COMMON CARBOCATION REARRANGEMENTS AND NON CLASSICAL NORBORNYL CATION

ORGANIC CHEMISTRY-II - MIXED SN1 AND SN2 REACTIONS

ORGANIC CHEMISTRY-II - SET REACTIONS

ORGANIC CHEMISTRY-II - THE NEIGHBOURING MACHANISM, NEIGHBOURING GROUP PARTICIPATION BY Π AND ΣBONDS

ORGANIC CHEMISTRY-II - NEIGHBOURING GROUP PARTICIPATION IN SN REACTIONS AND ANCHIMERIC ASSISTANCE

ORGANIC CHEMISTRY-II - NUCLEOPHILIC SUBSTITUTION AT AN ALLYLIC, ALIPHATIC TRIGONALAND SNIREACTIONS AND NUCLEOPHILIC SUBSTITUTION AT A VINYLIC CARBON, REACTIVITY EFFECTS OF SUBSTRATE

ORGANIC CHEMISTRY-II - REACTIVITY EFFECTS OF ATTACKING NUCLEOPHILE, LEAVING GROUP AND REACTION MEDIUM

ORGANIC CHEMISTRY-II - AMBIDENT NUCLEOPHILE AND REGIOSELECTIVITY

ORGANIC CHEMISTRY-II - COMMON CARBOCATION REARRANGEMENTS AND NON CLASSICAL NORBORNYL CATION

ORGANIC CHEMISTRY-II - PHASE TRANSFER CATALYST

ORGANIC CHEMISTRY-II – ULTRASOUND

ORGANIC CHEMISTRY-II – SE2 REACTIONS

ORGANIC CHEMISTRY-II – SEI REACTIONS

ORGANIC CHEMISTRY-II – SE1 REACTIONS

ORGANIC CHEMISTRY-II – EFFECT OF SUBSTRATES, LEAVING GROUP AND THE SOLVENT POLARITY ON THE REACTIVITY IN ELECTROPHILIC ALIPHATIC SUBSTITUTION REACTIONS

ORGANIC CHEMISTRY-II – ARENIUM ION MECHANISM IN ELECTROPHILIC AROMATIC SUBSTITUTION, ORIENTATION AND REACTIVITY, ENERGY PROFILE DIAGRAMS

ORGANIC CHEMISTRY-II – ELECTROPHILIC AROMATIC SUBSTITUTION: THE ORTHO/PARA IPSO ATTACK, ORIENTATION IN OTHER RING SYSTEMS.

ORGANIC CHEMISTRY-II – AROMATIC ELECTROPHILIC SUBSTITUTION: QUANTITATIVE TREATMENT OF REACTIVITY IN SUBSTRATES AND ELECTROPHILES

ORGANIC CHEMISTRY-II – DIAZONIUM COUPLING, VILSMEIR REACTION AND GATTERMANN-KOCH REACTION

ORGANIC CHEMISTRY-II – AROMATIC NUCLEOPHILIC SUBSTITUTION

ORGANIC CHEMISTRY-II – SRN1 MECHANISMS

ORGANIC CHEMISTRY-II – REACTIVITY-EFFECT OF SUBSTRATE STRUCTURE, LEAVING GROUP AND ATTACKING NUCLEOPHILE IN NUCLEOPHILIC AROMATIC SUBSTITUTION REACTIONS

ORGANIC CHEMISTRY-II – THE VON RICHTER, SOMMELET-HAUSER AND SMILES REARRANGEMENTS

PHYSICAL CHEMISTRY-II (STATISTICAL THERMODYNAMICS, CHEMICAL DYNAMICS, ELECTROCHEMISTRY AND MACROMOLECULES) 

PHYSICAL CHEMISTRY-II - INTRODUCTION TO STATISTICAL THERMODYNAMICS

PHYSICAL CHEMISTRY-II - FUNDAMENTALS OF MAXWELL BOLTZMANN STATISTICS

PHYSICAL CHEMISTRY-II - MOST PROBABLE DISTRIBUTION AND CONCEPT OF PARTITION FUNCTION

PHYSICAL CHEMISTRY-II - CHEMICAL SYSTEMS AND TRANSLATIONAL PARTITION FUNCTION

PHYSICAL CHEMISTRY-II - CHEMICAL DYNAMICS AND ARRHENIUS THEORY

PHYSICAL CHEMISTRY-II - RATE CONSTANT AND COLLISION THEORY

PHYSICAL CHEMISTRY-II - TRANSITION STATE THEORY: THERMODYNAMIC APPROACH

PHYSICAL CHEMISTRY-II - TRANSITION STATE THEORY: STATISTICAL APPROACH

PHYSICAL CHEMISTRY-II - ACTIVITY AND MEAN ACTIVITY COEFFICIENT

PHYSICAL CHEMISTRY-II - DEBYE –HÜCKEL THEORY – I

PHYSICAL CHEMISTRY-II - DEBYE –HÜCKEL THEORY – II

PHYSICAL CHEMISTRY-II - DEBYE –HÜCKEL THEORY – III

PHYSICAL CHEMISTRY-II - DEBYE –HÜCKEL THEORY – IV

PHYSICAL CHEMISTRY-II - POLYMERS AND THEIR CLASSIFICATION

PHYSICAL CHEMISTRY-II - CONCEPT OF NUMBER AVERAGE ANDMASS AVERAGE MOLECULAR WEIGHTS

PHYSICAL CHEMISTRY-II - FLORY’S THEORY

PHYSICAL CHEMISTRY-II - METHOD OF DETERMINING MOLAR MASS -I (OSMOMETRY)

INORGANIC CHEMISTRY-III

INORGANIC CHEMISTRY-III - ACIDITY, METAL CARBONYLS, THEIR CLASSIFICATION AND GENERAL FEATURES

INORGANIC CHEMISTRY-III - ROUTES FOR THE SYNTHESIS OF METAL CARBONYLS

INORGANIC CHEMISTRY-III - STRUCTURE OF METAL CARBONYLS : THE 18- ELECTRON RULE

INORGANIC CHEMISTRY-III - MOLECULAR ORBITALS OF CO AND NATURE OF BONDING IN METAL CARBONYLS

INORGANIC CHEMISTRY-III - REACTION OF METAL C ARBONYLS

INORGANIC CHEMISTRY-III - ELEMENT IDEA OF IR SPECTROSCOPY AND EVIDENCES IN FAVOUR OF MCO TT BOUNDING

INORGANIC CHEMISTRY-III - APPLICATION OF IR SPECTROSCOPY IN THE DETERMINATION OF SYMMETRY OF METAL CARBONYLS

INORGANIC CHEMISTRY-III - APPLICATIONS OF IR SPECTROSCOPY IN THE IDENTIFICATION OF CONFORMERS AND BOND ANGLES IN METAL CARBONYLS

INORGANIC CHEMISTRY-III - METAL NITROSYLS, THEIR CLASSIFICATION AND GENERAL ROUTES FOR THEIR PREPARATIONS

INORGANIC CHEMISTRY-III - MOLECULAR ORBITALS OF NO AND STRUCTURE AND BONDING OF METAL NITROSYLS

INORGANIC CHEMISTRY-III - DINITROGEN COMPLEXES AND THEIR PREPARATION

INORGANIC CHEMISTRY-III - MODES OF COORDINATION AND BONDING IN DINITROGEN COMPLEXES

INORGANIC CHEMISTRY-III - NITROGEN FIXATION AND ROLE OF DINITROGEN COMPLEXES IN IT

INORGANIC CHEMISTRY-III - DIOXYGEN COMPLEXES

INORGANIC CHEMISTRY-III - THE CHARACTERISTICS OF TERTIARY PHOSPHINES AS LIGAND AND PREPARATION OF THEIR COMPLEXES

INORGANIC CHEMISTRY-III - NOMENCLATURE AND CLASSIFICATION OF HIGHER BORANES

INORGANIC CHEMISTRY-III - STYX RULES AND STRUCTURE OF HIGHER BORANES

INORGANIC CHEMISTRY-III - BONDING IN HIGHR BORANES

INORGANIC CHEMISTRY-III - STRUCTURE AND BONDING OF CARBORANES

INORGANIC CHEMISTRY-III - CARBORANES AS LIGANDS AND THEIR COMPLEXES

INORGANIC CHEMISTRY-III - METALLOBORANES AND THEIR PREPARATION

INORGANIC CHEMISTRY-III - METAL-METAL BONDS AND THEIR EVIDENCES

INORGANIC CHEMISTRY-III – PREPARATION AND REACTION OF METAL CLUSTERS

INORGANIC CHEMISTRY-III – POLYNUCLEAR METAL CARBONYLS AND THEIR STRUCTURE

INORGANIC CHEMISTRY-III – PREPARATION, STRUCTURE AND BONDING OF COMPOUNDS HAVING M-M MULTIPLE BONDS

INORGANIC CHEMISTRY-III – POLYATOMIC ZINTL CATIONS & ANIONS AND CHEVREL PHASES

ORGANIC CHEMISTRY-III (REACTION MECHANISMS-2) 

ORGANIC CHEMISTRY-III - STRUCTURE AND STABILITY OF FREE RADICALS

ORGANIC CHEMISTRY-III - FREE RADICAL REACTIONS – PART-I

ORGANIC CHEMISTRY-III - FREE RADICAL REACTIONS – PART-II

ORGANIC CHEMISTRY-III - FREE RADICAL REACTIONS – PART-III

ORGANIC CHEMISTRY-III - NGP IN FREE RADICALS AND BRIDGEHEAD SYSTEMS

ORGANIC CHEMISTRY-III - CHELETROPIC REACTIONS

ORGANIC CHEMISTRY-III - MICHAEL REACTION AND ADDITION TO CYCLOPROPANE RING

ORGANIC CHEMISTRY-III - ADDITION OF GRIGNARD REAGENT

ORGANIC CHEMISTRY-III - ADDITION OF ORGANOZINC AND ORGANOLITHIUM REAGENTS TO CARBONYL AND UNSATURATED CARBONYL COMPOUNDS

ORGANIC CHEMISTRY-III - WITTIG REACTION

ORGANIC CHEMISTRY-III - REDUCTION BY METAL HYDRIDES – PART-I

ORGANIC CHEMISTRY-III - REDUCTION BY METAL HYDRIDES – PART-II

ORGANIC CHEMISTRY-III - CLAISEN CONDENSATION AND MANNICH REACTION

ORGANIC CHEMISTRY-III - NAMED REACTIONS: BENZOIN CONDENSATION AND STOBBE CONDENSATION

ORGANIC CHEMISTRY-III - ELIMINATION REACTIONS: E1 AND E2 MECHANISMS-PART-1

ORGANIC CHEMISTRY-III - ELIMINATION REACTION: E1 AND E2 MECHANISMS PART – II

ORGANIC CHEMISTRY-III - THE E1cB ELIMINATION

ORGANIC CHEMISTRY-III - CLASSIFICATION OF PERICYCLIC REACTIONS

ORGANIC CHEMISTRY-III - CLASSIFICATION OF PERICYCLIC REACTIONS

ORGANIC CHEMISTRY-III - WOODWARD HOFFMANN CORRELATION DIAGRAMS

ORGANIC CHEMISTRY-III - ELECTROCYCLIC REACTIONS

ORGANIC CHEMISTRY-III – CYCLOADDITION

ORGANIC CHEMISTRY-III – CHELETROPIC REACTIONS

ORGANIC CHEMISTRY-III – SIGMATROPIC REARRANGEMENTS

ORGANIC CHEMISTRY-III – COPE, CLAISEN AND AZA-COPE REARRANGEMENTS

ORGANIC CHEMISTRY-III – FLUXIONAL TAUTOMERISM

ORGANIC CHEMISTRY-III – ENE REACTION

PHYSICAL CHEMISTRY-III (CLASSICAL THERMODYNAMICS, NON-EQUILIBRIUM THERMODYNAMICS, SURFACE CHEMISTRY, FAST KINETICS) 

PHYSICAL CHEMISTRY-III - INTRODUCTION TO CHEMICAL THERMODYNAMICS

PHYSICAL CHEMISTRY-III - ZEROTH AND FIRST LAW OF THERMODYNAMICS

PHYSICAL CHEMISTRY-III - ENTHALPY AND HEAT CAPACITY

PHYSICAL CHEMISTRY-III - ISOTHERMAL AND ADIABATIC EXPANSION

PHYSICAL CHEMISTRY-III - JOULE THOMSON EFFECT

PHYSICAL CHEMISTRY-III - THERMOCHEMISTRY AND HESS’S LAW

PHYSICAL CHEMISTRY-III - SECOND LAW OF THERMODYNAMICS –I

PHYSICAL CHEMISTRY-III - SECOND LAW OF THERMODYNAMICS –II

PHYSICAL CHEMISTRY-III – ENTROPY

PHYSICAL CHEMISTRY-III – THERMODYNAMIC POTENTIAL

PHYSICAL CHEMISTRY-III – ENTROPY (2)

PHYSICAL CHEMISTRY-III – ENTROPY PRODUCTION

PHYSICAL CHEMISTRY-III – TRANSFORMATION OF FLUXES AND FORCES, NON-EQUILIBRIUM STATIONARY STATES AND PHENOMENOLOGICAL EQUATIONS AND LAWS

PHYSICAL CHEMISTRY-III – SURFACTANTS

PHYSICAL CHEMISTRY-III – MICALLE AND CRITICAL, ICELLE CONCENTRATION

PHYSICAL CHEMISTRY-III – FACTORS AFFECTING CMC OF MICELLE

PHYSICAL CHEMISTRY-III – MICELLAR SOLUBILIZATION

PHYSICAL CHEMISTRY-III – THERMODYNAMICS OF MICELLIZATION

PHYSICAL CHEMISTRY-III – KINETICS OF A CHEMICAL REACTION IN SOLUTION PHASE

PHYSICAL CHEMISTRY-III – REACTIONS IN FLOW SYSTEMS AND KINETICS OF FAST REACTIONS

PHYSICAL CHEMISTRY-III – MOLECULAR REACTION DYNAMICS

PHYSICAL CHEMISTRY-III – THEORETICAL CALCULATION OF THE RATE CONSTANT

PHYSICAL CHEMISTRY-III – ELECTRON TRANSFER REACTIONS : THE MARCUS THEORY

ENVIRONMENTAL CHEMISTRY

ENVIRONMENTAL CHEMISTRY – ATMOSPHERE

ENVIRONMENTAL CHEMISTRY – BIOGEOCHEMICAL CYCLE OF CARBON AND NITROGEN

ENVIRONMENTAL CHEMISTRY – BIOGEOCHEMICAL CYCLES OF SULPHUR, PHOSPHORUS, OXYGEN AND BIO DISTRIBUTION OF ELEMENTS

ENVIRONMENTAL CHEMISTRY – HYDROSPHERE AND CHEMICAL COMPOSITION OF WATER BODIES

ENVIRONMENTAL CHEMISTRY – PROPERTIES OF WATER AND HYDROLOGICAL CYCLE

ENVIRONMENTAL CHEMISTRY – WATER POLLUTION: INTRODUCTION AND ORGANIC WATER POLLUTANT

ENVIRONMENTAL CHEMISTRY – WATER POLLUTION BY INORGANIC POLLUTANTS

ENVIRONMENTAL CHEMISTRY – WATER QUALITY STANDARDS

ENVIRONMENTAL CHEMISTRY – WATER BORNE DISEASES

ENVIRONMENTAL CHEMISTRY – ANALYTICAL TECHNIQUES FOR MEASURING WATER QUALITY PARAMETERS-PART-1

ENVIRONMENTAL CHEMISTRY – ANALYTICAL TECHNIQUES FOR MEASURING WATER QUALITY PARAMETERS-PART-2

ENVIRONMENTAL CHEMISTRY – WASTE WATER PURIFICATION

ENVIRONMENTAL CHEMISTRY – ADVANCED WASTE WATER TREATMENT

ENVIRONMENTAL CHEMISTRY – SOIL COMPOSITION, MICRO AND MACRONUTRIENTS

ENVIRONMENTAL CHEMISTRY – SOIL POLLUTION: FERTILIZERS AND PESTICIDES

ENVIRONMENTAL CHEMISTRY – POLLUTION BY CHEMICALS, PETROLEUM, MINERALS AND CHLOROFLUOROHYDROCARBONS

ENVIRONMENTAL CHEMISTRY – SOIL POLLUTION: METALS

ENVIRONMENTAL CHEMISTRY – COMPOSITION OF THE ATMOSPHERE

ENVIRONMENTAL CHEMISTRY – PHOTOCHEMICAL REACTIONS IN ATMOSPHERE AND SMOG FORMAT

ENVIRONMENTAL CHEMISTRY – OXIDES OF CARBON, NITROGEN AND CARBON

ENVIRONMENTAL CHEMISTRY – POLLUTION BY CHEMICALS, PETROLEUM, MINERALS AND CHLOROFLUOROHYDROCARBONS

ENVIRONMENTAL CHEMISTRY – GREENHOUSE EFFECT

ENVIRONMENTAL CHEMISTRY – AIR POLLUT ION CONTROLS, THEIR CHEMISTRY AND CONTINUOUS MONITORING INSTRUMENTS

ENVIRONMENTAL CHEMISTRY – ANALYTICAL METHODS FOR MEASURING AIR POLLUTANTS

ENVIRONMENTAL CHEMISTRY – INDUSTRIAL WATER POLLUTION

ENVIRONMENTAL CHEMISTRY – CEMENT, SUGAR AND DISTILLERY

ENVIRONMENTAL CHEMISTRY – PAPER AND PULP INDUSTRIES

ENVIRONMENTAL CHEMISTRY – THERMAL POWER PLANT

ENVIRONMENTAL CHEMISTRY – NUCLEAR POWER PLANT

ENVIRONMENTAL CHEMISTRY – ENVIRONMENTAL ISSUES OF METALLURGY

ENVIRONMENTAL CHEMISTRY – RADIONUCLIDE ANALYSIS AND WASTE MANAGEMENT

ENVIRONMENTAL CHEMISTRY – ENVIRONMENTAL ISSUES OF POLYMER AND DRUG INDUSTRY

ENVIRONMENTAL CHEMISTRY – BIODEGRADABILITY AND DECOMPOSITION

ENVIRONMENTAL CHEMISTRY – ENVIRONMENTAL FRIENDLY PRACTICES AND INDUSTRIAL POLLUTION

PHYSICAL SPECTROSCOPY

PHYSICAL SPECTROSCOPY - ELECTROMAGNETIC RADIATION

PHYSICAL SPECTROSCOPY - PLANCK'S DISTRIBUTION LAW

PHYSICAL SPECTROSCOPY - NATURE OF ELECTROMAGNETIC RADIATION - PARTICLE CHARACTER

PHYSICAL SPECTROSCOPY - BOLTZMANN POPULATION DISTRIBUTION.INTERACTION OF ELECTROMAGNETIC RADIATION WITH MATTER, INDUCEDABSORPTION AND EMISSION, SPONTANEOUS EMISSION.EINSTEIN’S COEFFICIENTS, RELATIONSHIPBETWEEN THEM

PHYSICAL SPECTROSCOPY - TRANSITION PROBABILITIES AND TRANSITION DIPOLE MOMENT, OVERVIEW OF SELECTION RULES

PHYSICAL SPECTROSCOPY - TRANSITION PROBABILITIES AND TRANSITION DIPOLE MOMENT, OVERVIEW OF SELECTION RULES

PHYSICAL SPECTROSCOPY - EINSTEIN’S COEFFICIENTS AND LAMBERT-BEER’S LAW

PHYSICAL SPECTROSCOPY - BOHR’S THEORY AND SPECTRA OF HYDROGEN AND HYDROGEN-LIKE IONS

PHYSICAL SPECTROSCOPY - ALKALI METAL SPECTRA

PHYSICAL SPECTROSCOPY - ALKALI METAL SPECTRA & SPIN-ORBIT COUPLING

PHYSICAL SPECTROSCOPY - ZEEMAN EFFECT

PHYSICAL SPECTROSCOPY - PHOTOELECTRON SPECTROSCOPY OF ATOMS

PHYSICAL SPECTROSCOPY - OVERVIEW OF MOLECULAR SPECTRA, RIGID DIATOMIC MOLECULE

PHYSICAL SPECTROSCOPY - MICROWAVE SPECTROSCOPY

PHYSICAL SPECTROSCOPY - ROTATIONAL SPECTRA AND BOND LENGTHS OF DIATOMIC MOLECULES

PHYSICAL SPECTROSCOPY - MOMENT OF INERTIA TENSOR

PHYSICAL SPECTROSCOPY - INTRODUCTION TO VIBRATIONAL SPECTROSCOPY, REVIEW OF LINEAR HARMONIC OSCILLATOR

PHYSICAL SPECTROSCOPY - NORMAL COORDINATES AND LINEAR TRANSFORMATIONS

PHYSICAL SPECTROSCOPY - NORMAL COORDINATES AND LINEAR TRANSFORMATIONS

PHYSICAL SPECTROSCOPY - RESULT OF QUANTUM MECHANICAL TREATMENT, ALLOWEDENERGIES, ZERO-POINT ENERGY, FORCE CONSTANTS AND BOND STRENGTHS. MECHANISM OF INFRAREDRADIATION ABSORPTION. SELECTION RULES FOR HARMONIC OSCILLATOR

PHYSICAL SPECTROSCOPY - COMPARISON WITH EXPERIMENTAL SPECTRA

PHYSICAL SPECTROSCOPY - BREAKDOWN OF THE BORN

PHYSICAL SPECTROSCOPY - NORMAL MODES AND IRREDUCIBLE REPRESENTATIONS FOR POLYATOMIC MOLECULES

PHYSICAL SPECTROSCOPY - RAYLEIGH AND RAMAN SCATTERING

PHYSICAL SPECTROSCOPY - VIBRATIONAL RAMAN SPECTROSCOPY. SELECTION RULES. MUTUAL EXCLUSION PRINCIPLE. POLARIZATION OF RAMAN LINES

PHYSICAL SPECTROSCOPY - DETERMINATION OF IR AND RAMAN ACTIVITY OF VIBRATIONS FROM CHARACTER TABLE

PHYSICAL SPECTROSCOPY - ELECTRONIC SPECTROSCOPY OF MOLECULES. DIATOMIC MOLECULES. FRANCK-CONDON PRINCIPLE. VIBRONIC TRANSITIONS

PHYSICAL SPECTROSCOPY – DISSOCIATION ENERGIES – PREDISSOCIATION

PHYSICAL SPECTROSCOPY – MOLECULAR TERM SYMBOLS AND SELECTION RULES FOR DIATOMIC MOLECULES

PHYSICAL SPECTROSCOPY – PHOTOELECTRON SPECTROSCOPY OF DIATOMIC MOLECULES

PHYSICAL SPECTROSCOPY – PLAYATOMIC MOLECULES : INTEGRATED ABSORPTION COEFFICIENT….

PHYSICAL SPECTROSCOPY – APPLICATIONS OF FREEELECTRON MODEL AND HMO THEORY TO ELECTRONIC SPECTRA OF SOMEREPRESENTATIVE MOLECULES

PHYSICAL SPECTROSCOPY – APPLICATION OF HMO THEORY: CIS AND TRANS-BUTADIENE. n-π*AND π-π* TRANSITIONS OF FORMALDEHYDE

PHYSICAL SPECTROSCOPY – EXCITED STATES: INTERNAL AND EXTERNAL CONVERSION, FLUORESCENCE, INTERSYSTEM CROSSING, PHOSPHORESCENCE. KINETICS AND RATE CONSTANTS. STERN-VOLMER EQUATION

PHYSICAL SPECTROSCOPY – NUCLEAR SPINS,INTERACTION WITH A MAGNETIC FIELD,LARMOR FREQUENCY

PHYSICAL SPECTROSCOPY – MECHANISMS OF RELAXATION: SPIN-LATTICE AND SPIN-SPIN

PHYSICAL SPECTROSCOPY – SHIELDING. QUANTUM MECHANICAL TREATMENT OF A TWO-SPIN SYSTEM

ORGANIC SPECTROSCOPY 

ORGANIC SPECTROSCOPY - UV-VISIBLE SPECTROSCOPY AND INSTRUMENTATION TECHNIQUE

ORGANIC SPECTROSCOPY - NATURE OF ELECTRONIC TRANSITIONS AND THE FACTORS AFFECTING IT


ORGANIC SPECTROSCOPY - WOODWARD FIESER RULEAND APPLICATIONS OF UV SPECTROSCOPY


ORGANIC SPECTROSCOPY - WOODWARD FIESER RULEAND APPLICATIONS OF UV SPECTROSCOPY


ORGANIC SPECTROSCOPY - APPLICATIONS OF UV SPECTROSCOPY


ORGANIC SPECTROSCOPY - BASIC PRINCIPLES OF IR SPECTROSCOPY


ORGANIC SPECTROSCOPY - INSTRUMENTATION FOR IR SPECTROSCOPY


ORGANIC SPECTROSCOPY - FACTORS AFFECTING VIBRATIONAL FREQUENCIES AND IR SPECTRUM OF HYDROCARBONS


ORGANIC SPECTROSCOPY - CHARACTERISTIC VIBRATIONAL FREQENCIES OF FUNCTIONAL GROUPS


ORGANIC SPECTROSCOPY - APPLICATION SPECTROSCOPY AND INTERPRETATION OF IR SPECTRUM


ORGANIC SPECTROSCOPY - INTRODUCTION TO NMR SPECTROSCOPY


ORGANIC SPECTROSCOPY - INSTRUMENTATION AND SAMPLE HANDLING IN NMR SPECTROSCOPY


ORGANIC SPECTROSCOPY - CHEMICAL SHIFT AND ITS MEASUREMENT


ORGANIC SPECTROSCOPY - FACTORS AFFECTING CHEMICAL SHIFT


ORGANIC SPECTROSCOPY - SPIN COUPLING


ORGANIC SPECTROSCOPY - 1 H NMR CHEMICAL SHIFTS FOR COMMON FUNCTIONAL GROUPS


ORGANIC SPECTROSCOPY - FIRST ORDER AND SECOND ORDER SPECTRA


ORGANIC SPECTROSCOPY - SIMPLIFICATION OF SECOND ORDER SPECTRA


ORGANIC SPECTROSCOPY - NMR SPECTROSCOPY OF N, P AND F – ATOMS


ORGANIC SPECTROSCOPY - APPLICATIONS OF PMR IN STRUCTURAL ELUCIDATION OF SIMPLE AND COMPLEX COMPOUNDS AND 2-D NMR SPECTROSCOPY


ORGANIC SPECTROSCOPY - BASIC CONCEPT OF 13C NMR


ORGANIC SPECTROSCOPY - APPLICATIONS OF 13C NMR


ORGANIC SPECTROSCOPY - ADVANCED NMR TECHNIQUES


ORGANIC SPECTROSCOPY - MASS SPECTROSCOPY : THEORY, INSEMINATION AND MODIFICATIONS


ORGANIC SPECTROSCOPY - TERMS IN MASS SPECTROMETRY , NITROGEN RULE , RULE OF THIRTEEN AND ISOTOPIC ABUNDANCE


ORGANIC SPECTROSCOPY - GENERAL FRAGMENTATION RULES


ORGANIC SPECTROSCOPY - FRAGMENTATION OF VARIOUS CLASSES OF ORGANIC MOLECULES


ORGANIC SPECTROSCOPY - α-, β-, ALLYLIC, BENZYLIC CLEAVAGE AND MCLAFFERTY REARRANGEMENT


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS- PART – I


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS - PART – II


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS - PART – III


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS - PART – IV


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS - PART – V


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS - PART – VI


ORGANIC SPECTROSCOPY - COMBINED PROBLEM ON UV, IR, 1H NMR, 13C NMR AND MASS - PART – VII



ORGANIC CHEMISTRY –IV 

(ADVANCE ORGANIC SYNTHESIS AND SUPRAMOLECULAR CHEMISTRY AND CARBOCYCLIC RINGS) 

ORGANIC CHEMISTRY –IV - FUNDAMENTALS OF DISCONNECTION APPROACH

ORGANIC CHEMISTRY –IV - PRINCIPLES OF MOLECULAR ASSOCIATIONS AND ORGANIZATIONS: NON-COVALENT SYNTHESIS

ORGANIC CHEMISTRY –IV - SELF-ASSEMBLY AND SELF-ORGANISATION

ORGANIC CHEMISTRY –IV - SUPRAMOLECULAR REACTIVITY AND CATALYSIS

ORGANIC CHEMISTRY –IV - MOLECULAR AND SUPRAMOLECULAR DEVICES

ORGANIC CHEMISTRY –IV - ION CHANNELS

ORGANIC CHEMISTRY –IV - NOVEL LIQUID CRYSTALS

ORGANIC CHEMISTRY –IV - GELATORS, FIBRES AND ADHESIVES

ORGANIC CHEMISTRY –IV – DENDRIMERS

ORGANIC CHEMISTRY –IV – ORGANIC SOLIDS, ORGANIC CONDUCTORS AND ORGANIC SUPER-CONDUCTORS

ORGANIC CHEMISTRY –IV – CATENANES AND ROTAXANES

ORGANIC CHEMISTRY –IV – CHEMISTRY OF SMALL RING COMPOUNDS

ORGANIC CHEMISTRY –IV – CHEMISTRY OF MEDIUM AND LARGE RING COMPOUNDS

ORGANIC CHEMISTRY –IV – TROPONES AND TROPOLONES

ORGANIC CHEMISTRY –IV – AZULENES

ORGANIC CHEMISTRY –IV – METALLOCENES

ORGANIC CHEMISTRY –IV – ANNULENES

ORGANIC CHEMISTRY –IV – BRIDGED RINGS

ORGANIC CHEMISTRY –IV – CAGED MOLECULES

ORGANIC CHEMISTRY –IV – ADAMANTANE : ADVANCED ORGANIC SYNTHESIS, SUPRAMOLECULAR CHEMISTRY AND CARBOCYCLIC RINGS


APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY 

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY ELEMENTS AND SYMMETRY OPERATIONS PART- 1

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY ELEMENTS AND SYMMETRY OPERATIONS PART- 2

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - DEFINITION OF GROUP AND ITS CHARACTERISTICS

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - PRODUCTS OF SYMMETRY OPERATIONS

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY EQUIVALENT ATOMS AND SYMMETRY EQUIVALENT ELEMENTS

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - CLASSIFICATION OF MOLECULES INTO POINT GROUP. PART-1

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - CLASSIFICATION OF MOLECULES INTO POINT GROUP. PART-2

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP MULTIPLICATION TABLE, SYMMETRY PROPERTIES OF ORBITALS AND GROUP GENERATOR

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY AND OPTICAL ACTIVITY AND DIPOLE MOMENT

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - REPRESENTATION OF POINT GROUP PART-1 MATRIX ALGEBRA

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - REPRESENTATION OF POINT GROUP PART-2 ATOMIC ORBITALS AND CARTESIAN COORDINATES AS THE BASES

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - REPRESENTATION OF POINT GROUP PART-3 UNIT VECTORS AS THE BASIS FOR REPRESENTATION

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - REPRESENTATION OF POINT GROUP PART-3 UNIT VECTORS AS THE BASIS FOR REPRESENTATION

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - REPRESENTATION OF POINT GROUP PART-4 UNIT VECTORS AS THE BASIS FOR REPRESENTATION

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - REDUCIBLE REPRESENTATION PART-2

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - IRREDUCIBLE REPRESENTATION PART-1

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - IRREDUCIBLE REPRESENTATIONS AND GREAT ORTHOGONALITY THEOREM: PART-II

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GREAT ORTHOGONALITY THEOREM AND ITS APPLICATIONS: PART-I

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GREAT ORTHOGONALITY THEOREM AND ITS APPLICATIONS: PART-II CHARACTER TABLE

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GREAT ORTHOGONALITY THEOREM AND ITS APPLICATIONS: PRAT-3

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - DIRECT PRODUCT REPRESENTATION

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY ADAPTED LINEAR COMBINATION OF ATOMIC ORBITALS: PART-1

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY ADAPTED LINEAR COMBINATION OF ATOMIC ORBITALS: PART-2

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY ADAPTED LINEAR COMBINATIONS OF ATOMIC ORBITALS: PART-III

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-1

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-2

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-3

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-4

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-5

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-6

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - GROUP THEORY AND VIBRATIONAL SPECTROSCOPY PART-7


APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY AND CHEMICAL BONDING PART-1 BRIEF ABOUT THEORIES OF CHEMICAL BONDING

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY AND CHEMICAL BONDING: PART-III (HYBRIDIZATION)

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY AND CHEMICAL BONDING: PART-IV (HYBRIDIZATION)

APPLICATIONS OF MOLECULAR SYMMETRY AND GROUP THEORY - SYMMETRY AND CHEMICAL BONDING: PART-V (HYBRIDIZATION)

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY 

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - CELL STRUCT URE AND TECHNIQUES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - CONSTITUENTS OF CELLS; LIPIDS

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - SUGARS AND POLYSACCHARIDES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - AMINO ACIDS AND RELATED MOLECULES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - NUCLEOTIDES AND POLYNUCLEOTIDES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - STRUCTURE OF DNA

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - PROTEIN STRUCTURE

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - INTRODUCTION TO ENZYMES, THEIR CLASSIFICATION AND NOMENCLATURE

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - EXTRACTION AND PURIFICATION OF ENZYMES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - GEL PERMEATION CHROMATOGRAPHY

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - MASS SPECTROMETRY ANALYSIS OF PROTEINS AND PEPTIDES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - HYDRODYNAMIC PROPERTIES OF MACRO MOLECULES-I

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - HYDRODYNAMIC PROPERTIES OF MACRO MOLECULES-II

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - THERMODYNAMICS OF ENZYME CATALYSED REACTIONS

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - ENZYME KINETICS-I

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - ENZYME KINETICS-II

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - ENZYME INHIBITIONS

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - GENERAL MECHANISMS OF ENZYME ACTION-I

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY - GENERAL MECHANISMS OF ENZYME ACTION-II

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – BI-SUBSTRATE REACTIONS

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – MECHANISM OF ENZYME CATALYZED REACTIONS –I- CHYMOTRYPSIN

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – MECHANISM OF ENZYME CATAYZED REACTIONS II (LYSOZYME)

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – RIDONUCLEASE AND CARBOXYPEPTIDASE A

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – COENZYME-I : COENZYME A, TPP, B12 AND BIOTIN

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – CO=ENZYME-II

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – CO-ENZYME-III PYRIDOXAL PHOSPHATE

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – BIOTECHNOLOGICAL APPLICATIONS-I, IMMOBILISED ENZYMES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – ENZYME IN FOOD

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – ENZYMES AS TARGETS OR DRUG DESIGN

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – ENZYMES IN CLINICAL USE, DIAGNOTICS AND REAGENTS

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – THERAPEUTIC USES OF ENZYMES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – ELECTROPHORESIS AND ISOTOPES IN BIOLOGY

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – INTRODUCTION TO MOLECULAR ASYMMETRY (CHIRALITY, ENANTIOMERISM, OPTICAL ACTIVITY ETC.)

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – CALIXARENE, IONOPHORES, MICELLES, SYNTHETIC ENZYMES OR SYNZYMES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – BIOINFORMATICS AS TOOLS IN UNDERSTANDING ENZYMES

BIO-ORGANIC AND BIO-PHYSICAL CHEMISTRY – IMPROVING ENZYME CAPACITY: PROTEIN ENGINEERING

BIOINORGANIC CHEMISTRY 

BIOINORGANIC CHEMISTRY - INTRODUCTION: BIOINORGANIC CHEMISTRY

BIOINORGANIC CHEMISTRY - METAL IONS IN BIOLOGICAL SYSTEMS

BIO-INORGANIC CHEMISTRY - ESSENTIAL AND TRANCE METALS

BIO-INORGANIC CHEMISTRY - TOXICITY AND CHELATION THERAPY

BIO-INORGANIC CHEMISTRY - ROLE OF METAL IONS IN BIOLOGICAL SYSTEMS (I)

BIO-INORGANIC CHEMISTRY - ROLE OF METAL IONS IN BIOLOGICAL SYSTEMS (II)

BIO-INORGANIC CHEMISTRY - STRUCTURE AND FUNCTIONS OF CELL MEMBRANE

BIO-INORGANIC CHEMISTRY - ION TRANSPORT THOUGHT CELL MEMBRANCE, NA+K+PUMP

BIO-INORGANIC CHEMISTRY – BIOMINERALIZATION

BIO-INORGANIC CHEMISTRY – GLUCOSE STORAGE

BIO-INORGANIC CHEMISTRY – BIOENERGETICS AND ATP CYCLE

BIO-INORGANIC CHEMISTRY – CHLOROPHYLL

BIO-INORGANIC CHEMISTRY – PHOTOSYSTEM I AND PHOTOSYSTEM LL IN CLEAVAGE OF WATER

BIO-INORGANIC CHEMISTRY – DNA POLYMERISATION MODEL SYSTEM

BIO-INORGANIC CHEMISTRY – LEWIS ACID CATALYSIS AND REGULATION

BIO-INORGANIC CHEMISTRY – ZINC ENZYMES PART-1

BIO-INORGANIC CHEMISTRY – ZINC ENZYMES PART-II

BIO-INORGANIC CHEMISTRY – ZINC ENZYMES PART-III

BIO-INORGANIC CHEMISTRY – OXYGEN CARRIERS

BIO-INORGANIC CHEMISTRY – TRANSPORT AND STORAGE OF DIOXYGEN: HEME PROTEINS AND OXYGEN UPTAKE

BIO-INORGANIC CHEMISTRY – STRUCTURE AND FUNCTION OF HEMOGLOBIN (L)

BIO-INORGANIC CHEMISTRY – STRUCTURE AND FUNCTION OF HEMOGLOBIN

BIO-INORGANIC CHEMISTRY – IRON TRANSPORT AND STORAGE PROTEINS

BIO-INORGANIC CHEMISTRY – CATALASE AND PEROXIDISES

BIO-INORGANIC CHEMISTRY – MODEL SYNTHETIC COMPLEXES OF IRON, COBALT AND COPPER

BIO-INORGANIC CHEMISTRY – METALLOPROTEINS

BIO-INORGANIC CHEMISTRY – IRON SULPHUR PROTEINS(M)

BIO-INORGANIC CHEMISTRY – SYNTHETIC MODELS

BIO-INORGANIC CHEMISTRY – BIOLOGICAL NITROGEN FIXATION-1

BIO-INORGANIC CHEMISTRY – BIOLOGICAL NITROGEN FIXATION-2

BIO-INORGANIC CHEMISTRY – MOLYBDENUM NITROGENASE

BIO-INORGANIC CHEMISTRY – OTHER NITROGENASES MODEL SYSTEMS

BIO-INORGANIC CHEMISTRY – PHYSICAL METHODS (I)

BIO-INORGANIC CHEMISTRY – PHYSICAL METHODS (II)