MEGA CRASH COURSE 5.0 - CHEMISTRY

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Curriculum for this course

661 Lessons 00:00:00 Hours

INORGANIC

211 Lessons 00:00:00 Hours

BIOINORGANIC PYQ DISCUSSION PART 1
PERIODIC PROPERTIES PYQ DISCUSSION
Organometallic Compounds PYQ DISCUSSION
COORDINATION COMPOUNDS PYQ DISCUSSION PART 1
COORDINATION COMPOUNDS PYQ DISCUSSION PART 2
COORDINATION COMPOUNDS PYQ DISCUSSION PART 3
COORDINATION COMPOUNDS PYQ DISCUSSION PART 4
COORDINATION COMPOUNDS PYQ DISCUSSION PART 5
Main Group Elements Pyq Discussion Part 1
Main Group Elements Pyq Discussion Part 2
Main Group Elements Pyq Discussion Part 3
Introduction to coordination complex
Ligand Classification
On the basis of charge
Based on the Denticity
Based on the Chelation
Based on the Interaction
Nomenclature part 1
Nomenclature part 2
Ionization isomerism
Hydrate isomerism
Linkage isomerism
Coordinate isomerism
Coordinate position isomerism
Ligand isomerism
Polymerism isomerism
Geometrical isomerism
Optical Isomerisation
Tetrahedral-types of stereo isomers
Octahedral-types of stereo isomers
Square planar-types of stereo isomers
Bidentate ligands-types of isomers
Werner's theory
VBT-Tetrahedral complexes
VBT-Square planar complexes
VBT-Octahedral complexes
Shapes of orbitals
CFT - CFSE Calculation
CFT - Application of cfse
PYQ Discussion Part 1
PYQ Discussion Part 2
PYQ Discussion Part 3
PYQ Discussion Part 4
PYQ Discussion Part 5
Nuclear Chemistry - Introduction
Radioactive disintegration
Types of radioactive decay
Theories of radioactive disintegration
Radioactive series
Isotopes, Isobars and Isotones
Nuclear Reactions
Mass defect and Binding energy of the nucleus
Meson theory of nuclear forces
Value of a nuclear reaction
Nuclear Fission
Nuclear Fusion
Transuranium Elements
Radioactive Tracers
Age of the earth by rock dating method
Age of recent objects by radio-carbon dating method
Organometallics
EAN and 18 electron rule
Application of 18 electron rule
Calculation of M-M (LNCC)
Wade rule and HNCC
Metal carbonyls frequency and synthesis
Reactions of metal carbonyls
Carbonyl derivatives
Metal nitrosyl
Phosphines
Metal alkenes
Metal carbenes
Metal carbynes
Isoloble analogy
Metallocenes - ferrocene
Reactions of organometallic reactions 1
Reactions of organometallic reactions 2
PYQ Discussion
Alkali Metals Part 1
Alkali Metals Part 2
Alkaline Earth Metals Part 1
Alkaline Earth Metals Part 2
Boron Family Part 1
Boron Family Part 2
Boron Family Part 3
Carbon Family Part 1
Carbon Family Part 2
Nitrogen Family Part 1
Nitrogen Family Part 2
Nitrogen Family Part 3
Oxygen Family Part 1
Oxygen Family Part 2
Halogen Family Part 1
Halogen Family Part 2
Zero group family part 1
Zero group family part 2
PYQ Discussion
Introduction
Porphyrins
Oxygen carrier and storage devices - Part 1
Oxygen carrier and storage devices - Part 2
Electron transfer agent
Transport and storage of iron
Cytochromes
Carbonic anhydrase
Sodium potassium pumb, Nitrogen fixation and Photosynthesis
Deficiency, toxicity of metals and Genetic defects
PYQ Discussion Part 1
Periodic Table
Metallic and Non-Metallic Character (Oxides)
Atomic Radius
Ionic Radius
Slater's Rule 1
Slater's Rule 2
Ionization Enthalpy
Electron Gain Enthalpy
Electronegativity
Quantum Numbers
Finding Group Number/ Period/ Block
PYQ Discussion
Chemical Bonding _ Assignment 1
Main Group Elements Assignment
Periodic Properties Assignment
Coordination Chemistry Assignment
Bioinorganic Chemistry Assignment
Nuclear Chemistry Assignment
Organometallic Compounds Assignment
Chemical Bonding Assignment
Chemical Bonding Live Part 1
Chemical Bonding Live Part 2
Periodic Properties part 1
Periodic Properties Part 2
Main Group Elements, Periodic Properties & Chemical Bonding One Shot Live
Coordination Compounds, Organometallic Compounds, D block Elements, Bioinorganic Chemistry One-shot
Main group Element , Periodic Properties, Chemical bonding & nuclear Chemistry One shot
Chemical bonding - Introduction
Lewis Structure
Formal Charge
Orbital Theory
Covalency and Excitation theory
Variable valency and Applications
Valance Bond Theory
Types of covalent bond formation
VSEPR Theory Part 1
VSEPR Theory Part 2
Bond Length
Bond Angle
Hybridisation Part 1
Hybridisation Part 2
Hybridisation Part 3
Hybridisation Part 4
Hybridisation Part 5
Hybridisation Part 6
Hybridisation Part 7
Drago's Rule
Isostructural Species
Walden Inversion
Bent rule
Berry pseudorotation
Concept of planarity
Resonance and Bond order
Molecular Orbital Theory
Molecular Orbitals
Molecular orbitals in homonuclear diatomic molecule
Bond order
Magnetic behaviour
Molecular orbitals in heteronuclear diatomic molecule
NO Molecule
Ionic Bond / Electrovalent Bond
Factors affecting Lattice energy
Fajan's rule
Applications of Fajan's rule
Metallic bond
Born Haber Cycle
Dipole Moment
Applications of dipole moment Part 1
Applications of dipole moment Part 2
Hydrogen bonding and its applications Part 1
Hydrogen bonding and its applications Part 2
Vander Waal's Force
Chemical bonding - Introduction Quiz 00:12:00
Lewis Structure Quiz 00:03:00
Formal Charge Quiz 00:03:00
Valance Bond Theory Quiz 00:03:00
Types of covalent bond formation Quiz 00:06:00
VSEPR Theory Part 1 Quiz 00:09:00
VSEPR Theory Part 2 Quiz 00:15:00
Bond Length Quiz 00:06:00
Bond Angle Quiz 00:09:00
Hybridisation Part 1 Quiz 00:03:00
Hybridisation Part 2 Quiz 00:12:00
Hybridisation Part 3 Quiz 00:06:00
Hybridisation Part 4 Quiz 00:09:00
Hybridisation Part 5 Quiz 00:12:00
Hybridisation Part 6 Quiz 00:12:00
Hybridisation Part 7 Quiz 00:03:00
Isostructural Species Quiz 00:15:00
Berry pseudorotation Quiz 00:06:00
Molecular Orbital Theory Quiz 00:03:00
Molecular orbitals in homonuclear diatomic molecule Quiz 00:03:00
Bond order Quiz 00:12:00
Magnetic behaviour Quiz 00:03:00
Ionic Bond / Electrovalent Bond Quiz 00:03:00
Fajan's rule Quiz 00:06:00
Applications of Fajan's rule Quiz 00:03:00
Dipole Moment Quiz 00:06:00
Applications of dipole moment Part 1 Quiz 00:03:00
Applications of dipole moment Part 2 Quiz 00:06:00
Hydrogen bonding and its applications Part 1 Quiz 00:09:00
Hydrogen bonding and its applications Part 2 Quiz 00:09:00
Vander Waal's Force 00:06:00

ORGANIC

169 Lessons 00:00:00 Hours

NATURAL PRODUCTS PYQ DISCUSSION
Stereochemistry Pyq Discussion Part 1
Stereochemistry Pyq Discussion Part 2
Goc And Aromaticity Pyq Discussion
Reaction Intermediates Pyq Discussion
Heterocyclic Pyq Discussion
Name Reaction Pyq Discussion
Introduction to heterocyclic compound
Pyrrole & Indole
Furan & Thiophene
Pyridine
Derivatives of pyridine
Introduction to pericyclic reaction part A
Introduction to pericyclic reaction part B
Electrocyclic reaction
Cyclo addition reaction part-1
Cyclo addition reaction part-2
Sigma tropic reaction part-1
Sigma tropic reaction part-2
Natural products - Introduction Part A
Natural products - Introduction Part B
Carbohydrates - Preparation and Properties
Carbohydrates - Optical activity, , epimerization, Haworth Projection formula Part A
Carbohydrates - Optical activity, , epimerization, anomer _ Part B
Carbohydrates- Anomeric effect
Carbohydrate - Reactions in cyclic structure Part A
Carbohydrates- Disaccharides and Polysaccharides Part B
Amino acid - Introduction
Amino acid Synthesis
Protein - Classification
Synthesis and seperation of Peptides
Structure of Protein
Nucleic acid- Introduction
Watson and Crick model of DNA Part A
Watson and Crick model of DNA Part B
Structure of RNA
Enolate Chemistry Part-1
Enolate Chemistry Part-2
Enolate Chemistry Part-3
Aldol Condensation & Claisen Schmidt Condensation
Mannich & Reforamatsky Reaction
Perkin & Knoevenagel Condensation
Claisen Condensation & Dieckman Cyclisation
Michael Addition & Robinson annelation
Darzon Condensation, Favorski Rearrangement & Haloform Reaction
Cannizaro Reaction & Benzoin Condensation
NMR Spectroscopy Lecture 1
NMR Spectroscopy Lecture 2
NMR Spectroscopy Lecture 3
NMR Spectroscopy Lecture 4
NMR Spectroscopy Lecture 5
NMR Spectroscopy Lecture 6
NMR Spectroscopy Lecture 7
NMR Spectroscopy Lecture 8
Conditions for Aromaticity Part 1
Conditions for Aromaticity Part 2
Anti-aromatic Compounds Part 1
Anti-aromatic Compounds Part 2
Non-aromatic Compunds
Homo-aromatic Compounds
Quasi-aromatic Compounds
Craigs Rule
Fulvalene
Introduction of Reagents
Hydride based reagents
Lithium Aluminium Hydride
Lithium Aluminium Hydride Part 2
Reduction of Acid Chlorides and Esters
Sodium Borohydride
Sodium Borohydride Preparation
Lithium Borohydride
Zinc Borohydride
Sodium Cyanoborohydride
Luche Reagent
Borane Part 1
Borane Part 2
DIBALH Part 1
DIBALH Part 2
Introduction to Reaction Mechanism
Substitution Reactions & Types of substitution reaction
SN2 Reaction & Stereochemistry of SN2 reaction
Factors affecting Sn2 Reaction Rate part 1
Factors affecting Sn2 Reaction Rate part 2
Sn1 Reaction & Stereochemistry of Sn1 Reaction
Factors affecting Sn1 Reaction Rate part 1
Factors affecting Sn1 Reaction Rate part 2
Carbocation Rearrangement in Sn1 Reaction
Summary of Sn1 & Sn2 Reaction
Ring Opening of Epoxide
Introduction to Elimination reaction & E2 Elimination Reaction (Sterochemical aspect)
Regio selectivity of E2 reaction(Saytzeff & Hoffmann rule)
Stereospecific E2 Elimination Part 1
Stereospecific E2 Elimination Part 2
Application of UV -Visible spectroscopy part 1
Application of UV -Visible spectroscopy part 2
Application of UV -Visible spectroscopy part 3
Application of IR spectroscopy - part 1
Application of IR spectroscopy - part 2
Introduction to reaction intermediate Part 1
Introduction to reaction intermediate Part 2
Carbocation part 1 A
Carbocation part 1 B
Carbocation part 2
Carbocation part 3
Carbocation part 4
Carbocation part 5
Carbocation part 6
Carbocation based Name reactions
Carbanion Part 1
Carbanion Part 2
Free radical Part 1
Free radical Part 2
GOC Assignment
Stereochemistry Assignment
Natural products Assignment
Heterocyclic Compounds Assignment
Pericyclic Reactions
Name Reactions
Organic Spectroscopy
Reaction Intermediates
Reaction Mechanism Assignment
Reagents Assignment
Introduction
Representation of organic compounds
Optical isomerism Part 1
Optical isomerism Part 2 A
Optical isomerism Part 2 B
R&S Nomenclature Part 1
R&S Nomenclature Part 2
R&S Nomenclature Part 3
Geometrical Isomerism Part 1
Geometrical Isomerism Part 2
Conformation Part 1
Conformation Part 2
Conformation Part 3
Isotopic, Enantiotopic and Diasteriotopic
General Organic Chemistry Part 1 Live
General Organic Chemistry Part 2 Live
Stereochemistry Live Part 1
Stereochemistry Live Part 2
GOC, Aromaticity , Stereochemistry, Natural Products & Organic Spectroscopy Oneshot
Reaction intemediates, reaction mechanism, Reagents, Heterocyclic compounds, Pericyclic reactions and Name reactions Oneshot
GOC, Aromaticity, stereochemistry, Natural Product and organic spectroscopy One shot
GOC - Introduction
Degree of unsaturation
Electronic Effect - Inductive Effect
Applications of Inductive Effect
Resonance
Stability of Resonating Structures
Electronic Effect - Mesomeric Effect
Applications Of Mesomeric Effect Part 1
Applications Of Mesomeric Effect Part 2
Electronic Effect-Hyperconjugation and it's application
IUPAC-Nomenclature part 1
IUPAC-Nomenclature part 2
IUPAC-Nomenclature part 3
GOC - Introduction Quiz 00:15:00
Degree of unsaturation Quiz 00:12:00
Electronic Effect - Inductive Effect Quiz 00:15:00
Resonance Quiz 00:12:00
Electronic Effect-Hyperconjugation and it's application 00:15:00
Applications of Inductive effect 00:15:00
Stability of Resonating Structures 00:15:00
Electronic Effect - Mesomeric Effect 00:15:00
Applications Of Mesomeric Effect Part 1 00:15:00
Applications Of Mesomeric Effect Part 2 00:15:00
IUPAC-Nomenclature part 1 00:15:00
IUPAC-Nomenclature part 2 00:15:00
IUPAC-Nomenclature part 3 00:15:00

PHYSICAL

281 Lessons 00:00:00 Hours

Introduction - Basic mathematical concept
The schrodinger wave equation
Concept of orbitals
Normalisation of function
Condition for acceptable wave function
Postulates in quantum chemistry 1
Postulates in quantum chemistry 2
Operators
Commutative operators
Eigen function and eigen value equation
Application of schrodinger wave equation - 1 D Box
Particle in 3 dimensional cubical box Part 1
Particle in 3 dimensional cubical box Part 2
The radial probability distribution function
Atomic orbitals and their energies
Unit Cell Part 1
Unit Cell Part 2
Types of Unit Cell
Close Packing in crystals and voids
Radius Ratio Part 1
Radius Ratio Part 2
Structure of Ionic Compounds - NaCl
Structure of Ionic Compounds - Zinc Sulphide
Structure of Ionic Compounds - ZnS Wurtzite
Structure of Ionic Compounds - CsCl
Structure of Ionic Compounds - Fluorite
Structure of Ionic Compounds - Antifluorite
Miller Indices
Interplanar Distance
X-ray Diffraction
Band Theory
Semiconductors
introduction, Basics
Physisorption and chemisorption
Factors influencing adsorption
Freundlich adsorption isotherm
Langmuir adsorption isotherm
BET adsorption isotherm
Application of BET
Surface area calculation
Gibbs adsorption isotherm
Classification
Kinetics Introduction
Rate of reaction
Basic of adsorption
Rate law & rate constant
Order & Molecularity
1st Order Reaction
2nd Order Reaction
General Equations & Graphs
Steady state approximation
Chain Reaction
Arrhenius Equation
Effect of pressure on rate constant
Lindemann Mechanism
Catalysis and types
Enzyme Catalysis
Catalytic efficiency, TON,TOF
Collision theory
Transition State Theory
Atomic Models
Some Atomic Terms
Wave
Planks Quantum Theory
Photoelectric Effect
Bohr Atomic Model
Advantages of Bohr Theory
Hydrogen Spectrum
De-broglie Theory
Heisenberg Uncertainty Principle
Quantum Numbers
Electronic Configuration
Introduction to Spectroscopy
Different types of spectroscopy
Rotational Spectroscopy Part 1
Rotational Spectroscopy Part 2
Vibrational Spectroscopy Part 1
Vibrational Spectroscopy Part 2
Electronic Spectroscopy
Beer-Lamberts law
Raman Spectroscopy
Introduction to Thermodynamics
Terminology of Thermodynamics
Maxwell Equation
First law of Thermodynamics Part 1
First law of Thermodynamics Part 2
Degree of freedom
Work, Heat and Energy Part 1
Work, Heat and Energy Part 2
Enthalpy Function
Joule Thomson coefficient
Second law of thermodynamics
Introduction to entropy
Third law of thermodynamics
Free energies and partial molar derivatives
Gibbs Duhem equation
Thermochemistry part 1
Thermochemistry part 2
Laws Of Chemical Combinations
Mole Concept
Empirical & Molecular Formula
Significance of Chemical Equations and Limiting Reagents
Percentage Yield and Percentage Purity
Principle of Atom Conservation
Concentration Terms Part 1
Concentration Terms Part 2
Mixing or Dilution of Solution
Some Typical Concentration Terms
Liquid State
Liquid Solutions And Henry's Law
Phase Equilibrium - Introduction
Phase Rule
Application of phase rule-one component system Part 1
Application of phase rule-one component system Part 2
Important feature of water system
Important feature of sulphur system
Important feature of CO2
Clapeyron Equation
Ionic Equilibrium - Introduction
Degree of dissociation
Limitation of Ostward Dilution Law
Acid, Base and Salt
Properties of water - ionic product
Acidity and pH scale
pH calculation-strong acid
pH calculation-strong base
Mixture of two strong acids
Mixture of strong acid and strong base
pH of weak acid
weak acid and strong acid
Relative strength of weak acid and base
pH of the mixture of two weak acids
Buffer solutions
Hydrolysis of salt-SA-WB
Hydrolysis of salt-SB-WA
Hydrolysis of salt-WA-WB
Hydrolysis of salt-SA-SB
Solubiluty product
Application of solubility product
Chemical equilibrium-introduction
Law of mass action
Equilibrium constants Part 1
Equilibrium constants Part 2
Reaction quotient
Relation between Gibbs free energy and K
Le-chatelier principle-concentration
Le-chatelier principle-volume
Le-chatelier principle-pressure
Le-chatelier principle-temperature
Le-chatelier principle-catalyst
Thermodynamic equilibrium
Gaseous State _Assignment
Chemical Equilibrium_Assignment
Mole Concept and Liquid State Assignment
Solid State Assignment
Chemical Kinetics Assignment
Quantum Chemistry Assignment
Surface Chemistry Assignment
Phase Equilibrium Assignment
Electrochemistry Assignment
Thermodynamics Assignment
Atomic Structure Assignment
Chemical Equilibrium Assignment
Physical Spectroscopy Assignment
Gaseous State Live Part 1
Gaseous State Live Part 2
Chemical Equilibrium Live
Ionic & Phase Equilibrium Live
Ionic & Phase Equilibrium Part 2 Live
Gaseous State,Solid State,Mole Concept & Liquid State One Shot Live
Chemical Kinetics, Surface Chemistry, Electrochemistry & Thermodynamics One Shot
Gaseous State Introduction
Gas laws basics (equations and graphs)
Boyle's law
Charle's law
Gay-Lussac's law
Avogadro's law
Combined gas law
Concept of open containers
Relation between molar mass and density
Mixture of gases - Dalton's Law
Average molecular mass of gaseous mixture
Graham's law of diffusion/effusion
Kinetic molecular theory of gases
Derivation of kinetic gas equation
Kinetic gas equation in terms of kinetic energy
Most probable speed, Average speed, RMS speed
Effect of temperature and molecular mass of gas on distribution of velocities
Collision properties
Collision diameter & Collision frequency
Viscosity of gases
Law of equipartition of energy
Specific heat ratio of gases and molar heat capacity of gases
Real gases - compressibility factor (Z)
Vander waal's equations
Virial equation of state
Liquification of gas
Law of corresponding states
Electrolytic Conductance
Ohm's Law
Molar & Equivalent Conductance
Variation of Conductance with dilution
Debye Huckel Onsager Theory
Kohlrausch's law
Application of Kohlrausch's law
Factors affecting Ionic Conductance
Transport Number
Ionic Mobility
Conductometric Titration
Galvanic Cell
Cell Representation
Types of Electrodes
EMF
Electrochemical Series
Some Important Relations
Nernst Equation
Application of Cell Potential
Electrode Concentration Cell
Electrolytic Concentration Cell with transference
Electrolytic Concentration Cell without transference
Liquid Junction Potential (LJP)
Activity
Ionic Strength
Electrolytic Conductance 00:15:00
Ohm's Law 00:15:00
Molar & Equivalent Conductance 00:15:00
Variation of Conductance with dilution 00:15:00
Debye Huckel Onsager Theory 00:15:00
Kohlrausch's law 00:15:00
Application of Kohlrausch's law 00:15:00
Factors affecting Ionic Conductance 00:15:00
Transport Number 00:15:00
Ionic Mobility 00:15:00
Conductometric Titration 00:15:00
Galvanic Cell 00:15:00
Cell Representation 00:15:00
Types of Electrodes 00:15:00
EMF 00:15:00
Electrochemical Series 00:15:00
Some Important Relations 00:15:00
Nernst Equation 00:15:00
Electrolytic Concentration Cell 00:15:00
Electrolytic Concentration Cell with transference 00:15:00
Application of Cell Potential 00:15:00
Electrode Concentration Cell 00:15:00
Electrolytic Concentration Cell without transference 00:15:00
Liquid Junction Potential (LJP) 00:15:00
Activity 00:15:00
Ionic Strength 00:15:00
Boyle's Law Quiz 00:06:00
Charle's law Quiz 00:06:00
Gay-Lussac's law Quiz 00:03:00
Avogadro's law Quiz 00:03:00
Combined gas law Quiz 00:03:00
Relation between molar mass and density 00:06:00
Mixture of gases - Dalton's Law Quiz 00:06:00
Average molecular mass of gaseous mixture Quiz 00:06:00
Graham's law of diffusion/effusion Quiz 00:06:00
Kinetic molecular theory of gases Quiz 00:09:00
Derivation of kinetic gas equation Quiz 00:06:00
Kinetic gas equation in terms of kinetic energy Quiz 00:03:00
Most probable speed, Average speed, RMS speed Quiz 00:06:00
Collision properties Quiz 00:03:00
Collision diameter & Collision frequency Quiz 00:03:00
Real gases - compressibility factor (Z) Quiz 00:12:00
Vander waal's equations Quiz 00:09:00
Virial equation of state Quiz 00:03:00
Liquification of gas Quiz 00:04:00
Law of corresponding states Quiz 00:03:00
Chemical equilibrium-introduction 00:15:00
Law of mass action 00:15:00
Equilibrium constants Part 1 00:15:00
Equilibrium constants Part 2 00:15:00
Reaction quotient 00:15:00
Relation between Gibbs free energy and K 00:15:00
Le-chatelier principle-concentration 00:15:00
Le-chatelier principle-volume 00:15:00
Le-chatelier principle-pressure 00:15:00
Le-chatelier principle-temperature 00:15:00
Le-chatelier principle-catalyst 00:15:00
Thermodynamic equilibrium 00:15:00

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Description

The CUET PG Chemistry exam is a national-level entrance exam conducted by the National Testing Agency (NTA) for admission to postgraduate (PG) Chemistry programs offered by various participating universities across India. To be eligible, candidates must have a Bachelor's degree in Chemistry or a related subject with a minimum of 55% aggregate marks (50% for reserved category candidates).

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MEGA CRASH COURSE 5.0 - CHEMISTRY

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