BSc 2nd Year Chemistry Syllabus and Subjects 2022-23 (PDF)

Are you looking for a BSc chemistry 2nd-year syllabus and subjects name? If yes, then don’t worry because you visited the right site. In this blog post, I will provide the complete syllabus of the BSc 2nd year syllabus along with the subject’s name.

As you all know BSc stand for Bachelor of Science and its offers many courses in a variety of streams. Bachelor of Science in Chemistry is 3 to 4 years of undergraduate-level course in which students get a space to explore and acquire basic as well as advanced chemistry. Generally, people having an interest in chemistry and are qualified 10+2 from the science stream can pursue this BSc course.

It is not necessary that the syllabus of BSC Chemistry at every university should be the same. The syllabus may vary from university to university. The syllabus given below is written as per UGC. So, it is possible that the syllabus of the university you study may have some differences compared to the syllabus given below.

BSc Chemistry 2nd Year: Overview

BSc Full FormBachelor of Science
Branch NameChemistry
Total Number of Semesters in 2nd Year2 Semesters (6 months Each)
Complete Course Duration3 Years / 4 Years
Core Subjects3
Optional Subjects1 to 2

BSc Chemistry 2nd Year Syllabus

Semester IIISemester IV
Inorganic Chemistry-IIInorganic Chemistry-III
Inorganic Chemistry-II LabInorganic Chemistry-III Lab
Organic Chemistry-IIOrganic Chemistry-III
Organic Chemistry-II LabOrganic Chemistry-III Lab
Physical Chemistry-IIIPhysical Chemistry-IV
Physical Chemistry-III LabPhysical Chemistry-IV Lab
SEC-1SEC -2
GE-3GE-4

Also Read:- BSc Chemistry 1st Year Syllabus

BSc Chemistry 3rd Semester Syllabus

Inorganic Chemistry-II

General Principles of Metallurgy
  • Electrolytic Reduction
  • Hydrometallurgy
  • Methods of Purification of Metals
  • Electrolytic Kroll Process
  • Parting Process
  • van Arkel-de Boer process
  • Mond’s process
  • Zone refining
Acids and Bases
  • Bronsted-Lowry concept of acid-base reactions
  • Solvated Proton
  • Relative Strength of Acids
  • Types of Acid-Base Reactions
  • Levelling Solvents
  • Lewis Acid-Base Concepts
  • Classification of Lewis Acids
  • Hard and Soft Acids and Bases
  • Application of HSAB principle
Chemistry of s and p Block Elements
  • Inert Pair Effect
  • Allotropy and Catenation
  • Complex Formation Tendency of s and p Block Elements
  • Hydrides and Their Classification Ionic
  • Covalent and Interstitial
  • Boric Acid and Borates
  • Phosphorus and Chlorine
  • Peroxo Acids of Sulphur
  • Pseudohalogens and Basic Properties of Halogens
Noble Gases
  • Occurrence and Uses
  • Rationalization of Inertness of Noble Gases
  • Clathrates
  • Preparation and Properties of XeF2, XeF4 and XeF6
  • Nature of Bonding in Noble Gas Compounds
  • Molecular Shapes of Noble Gas Compounds
Inorganic Polymers
  • Types of Inorganic Polymers
  • Comparison with Organic Polymers
  • Synthesis
  • Structural Aspects of Silicones and Siloxanes
  • Applications of Silicones and Siloxanes
  • Borazines, Silicates, Polysulphates and Phosphazenes

Organic Chemistry-II

Chemistry of Halogenated Hydrocarbons
  • Alkyl halides
    • Method of preparation
    • Nucleophilic Substitution Reaction
    • Nucleophilic Substitution vs Elimination
  • Aryl halides
    • Preparation
    • Including Preparation from Diazonium Salts
    • Nucleophilic Aromatic Substitution
    • SNAr
    • Benzyne Mechanism
  • Relative Reactivity of Alkyl
  • Organometallic Compounds of Mg and Li
  • Use in Synthesis of Organic Compounds
Alcohols, Phenols, Ethers and Epoxides
  • Alcohols
    • Preparation
    • Bouvaelt-Blane Reduction
    • Preparation and Properties of Glycols
    • Oxidation by Periodic Acid and Lead Tetraacetate
    • Pinacol-Pinacolone Rearrangement
  • Phenols
    • Preparation and Properties
    • Acidity and Factors Effecting It
    • Ring Substitution Reactions
    • Reimer-Tiemann and Kolbe’s-Schmidt Reactions
    • Fries and Claisen Rearrangements with Mechanism
  • Ethers and Epoxides
    • Preparation
    • Reactions with Acids
    • Reactions of Epoxides with Alcohols
    • Ammonia Derivatives and LiAlH4
Carbonyl Compounds
  • Structure, Reactivity and Preparation
  • Nucleophilic Additions
  • Mechanisms of Aldol and Benzoin Condensation
  • Knoevenagel Condensation
  • Cannizzaro and Witting Reaction Reaction
  • Beckmann and Benzil-Benzilic Acid Rearrangements
  • α-Substitution Reactions
  • Wolff-Kishner
  • Addition Reactions of Unsaturated Carbonyl Compounds
  • Active Methylene Compounds
Carboxylic Acids and their Derivatives
  • Physica; Properties and Reactions of Monocarboxylic Acids
  • Typical Reactions of Dicarboxylic Acids
  • Hydroxy Acids and Unsaturated Acids
  • Preparation and Reactions of Acid Chlorides
  • Comparative Study of Nucleophilic Substitution at Acyl Group
  • Dieckmann and Reformatsky’s Reactions
Sulphur Containing Compounds
  • Preparation
  • Reactions of Thiols
  • Thioethers and Sulphonic Acids

Physical Chemistry-III

Phase Equilibria
  • Concept of Phases
  • Derivation of Gibbs Phase Rule for Nonreactive and Reactive Systems
  • Clausius-Clapeyron Equation
  • Liquid-Vapour and Solid-Vapour Equilibria
  • Three Component Systems
  • Water-Chloroform-Acetic Acid System
  • Triangular Plots
  • Binary Solutions
    • Gibbs-Duhem-Margules Equation
    • Azeotropes
    • Partial Miscibility of Liquids
    • Steam Distillation
  • Nernst Distribution Law
  • Its Derivation and Applications
Chemical Kinetics
  • Order and Molecularity of a Reaction
  • Experimental Methods of the Determination of Rate Laws
  • Temperature Dependence of Reaction Rates
  • Arrhenius Equation
  • Activation Energy
  • Collision Theory of Reaction Rates
  • Lindemann Mechanism
  • Theory of Absolute Reaction Rates
Catalysis
  • Types of Catalyst
  • Specificity and Selectivity
  • Mechanisms of Catalyzed Reactions at Solid Surfaces
  • Effect of Particle Size
  • Efficiency of Nanoparticles as Catalysts
  • Enzyme Catalysis
  • Michaelis-Menten Mechanism
  • Acid-Base Catalysis
Surface Chemistry
  • Physical Adsorption
  • Chemisorption
  • Adsorption Isotherms
  • Nature of Adsorbed State

Also Read:- BSc Chemistry 3rd Year Syllabus

BSc Chemistry 4th Semester Syllabus

Inorganic Chemistry-III
Coordination Chemistry
  • Werner’s Theory
  • Valence Bond Theory
  • Eletroneutrality Principle and Back Bonding
  • Crystal Field Theory
  • Octahedral vs Tetrahedral Coordination
  • Square Planar Geometry
  • IUPAC Nomenclature of Coordination Compounds
  • Isomerism in Coordination Compounds
  • Chelate Effect
  • Polynuclear Complexes
  • Labile and Inert Complexes
Transition Elements
  • Stability of Various Oxidation States and E.M.F.
  • Difference Between the First, Second and Third Transition Series
  • Chemistry of Ti, V, Cr Mn, Fe and Co in Various Oxidation States
Lanthanoids and Actinoids
  • Electronic Configuration
  • Oxidation States
  • Spectral and Magnetic Properties
  • Lanthanide Contraction
  • Separation of Lanthanides
Bioinorganic Chemistry
  • Metal Ions Present in Biological Systems
  • Geochemical Effect on the Distribution of Metals
  • Sodium / K-Pump
  • Carbonic Anhydrase and Carboxypeptidase
  • Excess and Deficiency of Some Trace Metals
  • Toxicity of Metal Ions
  • Use of Chelating Agents in Medicine
  • Iron and Its Application in Bio-Systems
  • Haemoglobin
  • Storage and Transfer of Iron
Organic Chemistry-III
Nitrogen-Containing Functional Groups
  • Preparation and Important Reactions of Nitro and Compounds
  • Nitriles and Isonitriles
  • Amines
    • Effect of Substituent and Solvent on Basicity
    • Gabriel Phthalimide Synthesis
    • Carbylamine Reaction
    • Mannich Reaction
    • Hoffmann’s Exhaustive Methylation
    • Hofmann-Elimination Reaction
  • Diazonium Salts
  • Preparation and Their Synthetic Applications
Polynuclear Hydrocarbons
  • Reactions of Naphthalene Phenanthrene and Anthracene Structure
  • Preparation and Structure Elucidation
  • Important Derivatives of Naphthalene and Anthracene
  • Polynuclear Hydrocarbons
Heterocyclic Compounds
  • Classification and Nomenclature
  • Structure Elucidation of Quinoline and Isoquinoline
  • Skraup Synthesis
  • Friedlander’s Synthesis
  • Knorr Quinoline Synthesis
  • Doebner-Miller Synthesis
  • Bischler-Napieralski Reaction
  • Derivatives of Furan
  • Furfural and Furoic Acid
Alkaloids
  • Natural Occurrence
  • General Structural Features
  • Isolation and Their Physiological Action
  • Hoffmann’s Exhaustive Methylation
  • Emde’s Modification
  • Structure Elucidation and Synthesis of Hygrine and Nicotine
  • Medicinal Importance of Nicotine
Terpenes
  • Occurrence, Classification, Isoprene Rule
  • Elucidation of Structure
  • Synthesis of Citral
  • Neral and α-terpineol
Physical Chemistry-IV
Conductance
  • Arrhenius’s Theory of Electrolytic Dissociation
  • Conductivity, Equivalent and Molar Conductivity
  • Molar Conductivity at Infinite Dilution
  • Kohlrausch’s law of Independent Migration of ions
  • Debye-Huckel-Onsager Equation
  • Wien Effect
  • Debye-Falkenhagen Effect
  • Walden’s Rules
  • Ionic Velocities
  • Mobilities and Their Determinations
  • Applications of Conductance Measurement
Electrochemistry
  • Quantitative Aspects of Faraday’s Laws of Electrolysis
  • Rules of Oxidation/Reduction of Ions Based on Half-Cell Potential
  • Applications of Electrolysis in Metallurgy and Industry
  • Chemical Cells
  • Reversible and Irreversible Cells with Examples
  • Electromotive Force of a Cell and Its Measurement
  • Nernst Equation
  • Standard Electrode Potential and Its Application
  • Application of EMF Measurements
  • Concentration Cells with and without Transference
  • Determination of Activity Coefficients and Transference Numbers
  • Qualitative Discussion of Potentiometric Titrations
Electrical & Magnetic Properties of Atoms and Molecules
  • Basic Ideas of Electrostatics
  • Electrostatics of Dielectric Media
  • Clausius-Mosotti Equation
  • Lorenz-Laurentz Equation
  • Dipole Moment and Molecular Polarizabilities
  • Diamagnetism
  • Paramagnetism
  • Magnetic Susceptibility
  • Molecular Interpretation

BSc Chemistry Core Subjects

  1. Atomic Structure & Chemical Bonding
  2. States of Matter & Ionic Equilibrium
  3. Basic and Hydrocarbons
  4. Chemical Thermodynamics and Its Applications
  5. s and p Block Element
  6. Oxygen Containing Functional Groups
  7. Phase Equilibria and Chemical Kinetics
  8. Coordination Chemistry
  9. Heterocyclic Chemistry
  10. Electrochemistry
  11. Biomolecules
  12. Quantum Chemistry & Spectroscopy
  13. Organometallic Chemistry
  14. Spectroscopy

Discipline-Specific Elective Papers

  1. Applications of Computers in Chemistry
  2. Analytical Methods in Chemistry
  3. Molecular Modelling & Drug Design
  4. Novel Inorganic Solids
  5. Polymer Chemistry
  6. Research Methodology for Chemistry
  7. Green Chemistry
  8. Industrial Chemicals & Environment
  9. Inorganic Materials of Industrial Importance
  10. Instrumental Methods of Analysis
  11. Dissertation

Skill Enhancement Courses

  1. IT Skills for Chemists
  2. Basic Analytical Chemistry
  3. Chemical Technology & Society
  4. Chemoinformatics
  5. Business Skills for Chemists
  6. Intellectual Property Rights
  7. Analytical Clinical Biochemistry
  8. Green Methods in Chemistry
  9. Pharmaceutical Chemistry
  10. Chemistry of Cosmetics & Perfumes
  11. Pesticide Chemistry
  12. Fuel Chemistry

Generic Elective Papers

  1. Atomic Structure, Bonding, General Organic Chemistry, Aliphatic Hydrocarbons
  2. Chemical Energetics, Equilibria and Functional Organic Chemistry
  3. Solutions, Phase Equilibria, Conductance, Electrochemistry, & Functional Group Organic Chemistry
  4. Transition Metal & Coordination Chemistry, States of Matter & Chemical Kinetics
  5. Organometallics, Bio-inorganic Chemistry, Polynuclear Hydrocarbons & UV, IR Spectra
  6. Quantum Chemistry, Spectroscopy & Photochemistry
  7. Molecules of Life
  8. Chemistry of Main Group Elements, Theories of Acids & Bases

BSc Chemistry 2nd Year Syllabus PDF

Frequently Asked Questions (FAQs)

What are the subjects in BSc chemistry 2nd year?

Subjects in BSc chemistry 2nd year are Inorganic Chemistry-II, Organic Chemistry-II, Physical Chemistry-III, Inorganic Chemistry-III, Organic Chemistry-III, and Physical Chemistry-IV.

What is thermodynamics in chemistry BSc 2nd year?

Thermodynamics is one of the core subjects in BSc chemistry 2nd year.

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