BSc 3rd Year Chemistry Syllabus and Subjects 2023-24 (PDF)

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Are you a student of B.Sc Chemistry and looking for a B.Sc Chemistry 3rd Year Syllabus? If yes, then you visited the right web page because, in this post, you can check out the subjects and syllabus of chemistry BSc 3rd year.

As per the Univerisity Grants Commission (UGC), the Bachelor of Science in Chemistry honours consists only of organic chemistry, inorganic chemistry and physical chemistry as core subjects. However, it may be possible that the university where you study may have differences in core subjects in BSc chemistry in 3rd year.

In the BSc chemistry 3rd year, you can acquire in-depth knowledge of advanced organic and physical chemistry. The curriculum covers quantum chemistry, photochemistry, spectroscopy, polymers, and many more during the course.

So, read the complete syllabus till the end.

BSc Chemistry 3rd Year: Overview

BSc Full FormBachelor of Science
BranchChemistry
Total Number of Semesters in 3rd Year2 Semesters (6 Months Each)
Complete Course Duration3 Years / 4 Years
Core Subjects3
Optional Subjects1 to 2

BSc Chemistry 3rd Year Syllabus

Semester VSemester VI
Organic Chemistry-IVInorganic Chemistry-IV
Organic Chemistry-IV LabInorganic Chemistry-IV Lab
Physical Chemistry-VOrganic Chemistry-V
Physical Chemistry-V LabOrganic Chemistry-V Lab
DSE-1DSE-3
DSE-1 LabDSE-3 Lab
DSE-2DSE-4
DSE-2 LabDSE-4 Lab

Also Read:- BSc Chemistry 1st Year Syllabus

BSc Chemistry 5th Semester Syllabus

Organic Chemistry-IV

Nucleic Acids
  • Components of Nucleic Acids
  • Nucleosides
  • Nucleotides
  • Structure, Synthesis and Reactions of Adenine
  • Structure, Synthesis and Reactions of Guanine
  • Structure, Synthesis and Reactions of Cytosine
  • Structure, Synthesis and Reactions of Uracil
  • Structure, Synthesis and Reactions of Thymine
  • Structure of Polynucleotides
Amino Acids, Peptides and Proteins
  • Amino Acids
  • Peptides and Their Classification
  • α-Amino Acids
  • Zwitterions
  • pKa values
  • Isoelectric Point
  • Electrophoresis
  • Study of Peptides
  • End Group Analysis
  • Methods of Peptide Synthesis
  • Synthesis of Peptides using N-protecting
  • C-protecting and C-activating groups
  • Solid-Phase Synthesis
Enzymes
  • Introduction, Classification and Characteristics of Enzymes
  • Mechanism of Enzyme Action
  • Factors Affecting Enzyme Action
  • Coenzymes and Cofactors and Their Role in Biological Reactions
  • Specificity of Enzyme Action
  • Enzyme Inhibitors and Their Importance
  • Phenomenon of Inhibition
Lipids
  • Introduction to Oils and Fats
  • Common Fatty Acids Present in Oils and Fats
  • Hydrogenation of Fats and Oils
  • Saponification Value
  • Acid Value
  • Iodine Number
  • Reversion and Rancidity
Concept of Energy in Biosystems
  • Cells Obtain Energy by the Oxidation of Foodstuff
  • Introduction to Metabolism
  • ATP
  • ATP Hydrolysis and Free Energy Change
  • Conversion of Food to Energy
  • Interrelationship in the Metabolic Pathways of Protein
  • Caloric Value of Food
  • Standard Caloric content of Food Types
Pharmaceutical Compounds: Structure and Importance
  • Classification, Structure and Therapeutic Uses of Antipyretics
  • Paracetamol Analgesics
  • Antimalarials
  • Elementary Treatment of Antibiotics
  • Study of Chloramphenicol
  • Medicinal Values of Curcumin
  • Vitamin C and Antacid

Physical Chemistry-V

Quantum Chemistry
  • Postulates of Quantum Mechanics
  • Quantum Mechanical Operators
  • Schrodinger Equation and Its Application
  • Quantization of Energy Levels
  • Zero-Point Energy
  • Heisenberg Uncertainty Principle
  • Probability Distribution Functions
  • Nodal Properties
  • Extension of Two and Three Dimensional Boxes
  • Separation of Variables
  • Degeneracy
  • Setting Up of Schrodinger Equation
  • Discussion of Solution and Wavefunctions
  • Vibrational Energy of Diatomic Molecules
  • Zero-Point Energy
  • Angular Momentum
  • Rigid Rotator Model of Rotation of Diatomic Molecule
  • Schrodinger Equation
  • Separation of Variables
  • Spherical Harmonics
  • Qualitative Treatment of Hydrogen Atom and Hydrogen-Like Ions
  • Average and Most Probable Distances of Electron from Nucleus
  • Chemical Bonding
  • Bonding and Antibonding Orbitals
  • Qualitative Extension to H2
  • Refinements of the Two Approaches
  • Qualitative MO Theory and its Application
Molecular Spectroscopy
  • Born-Oppenheimer Approximation
  • Rotation Spectroscopy
  • Vibrational Spectroscopy
  • Degrees of Freedom for Polyatomic Molecules
  • Concept of Group Frequencies
  • Vibration-Rotation Spectroscopy
  • Raman Spectroscopy
  • Qualitative Treatment of Rotational Raman Effect
  • Stokes and Anti-Stokes Lines
  • Electronic Spectroscopy
  • Franck-Condon Principle
  • Fluorescence and Phosphorescence
  • Nuclear Magnetic Resonance (NMR) Spectroscopy
  • Principles of NMR Spectroscopy
  • Interpretation of PMR Spectra of Organic Molecules
  • Electron Spin Resonance (ESR) Spectroscopy
  • ESR OF Simple Radicals
Photochemistry
  • Characteristics of Electromagnetic Radiation
  • Lambert-Berr’s Law and Its Limitations
  • Physical Significance of Absorption Coefficients
  • Examples of Low and High Quantum Yields
  • Photochemical Equilibrium
  • Differential Rate of Photochemical Reactions
  • Photosensitised Reactions
  • Role of Photochemical Reactions in Biochemical Processes
  • Photostationary States
  • Chemiluminescence

Also Read:- BSc Chemistry 2nd Year Syllabus

BSc Chemistry 6th Semester Syllabus

Inorganic Chemistry-IV

Theoretical Principles in Qualitative Analysis
  • Analysis of Cations and Anions and Solubility Products
  • Common Ion Effect
  • Interfering Anions and Need to Remove them after Group II
Organometallic Compounds
  • Definition and Classification of Organometallic Compounds
  • Concept of Hapticity of Organic Ligands
  • Metal Carbonyls
  • Electron Count of Mononuclear
  • π-acceptor behaviour of CO
  • Zeise’s Salt
  • Metal Alkyls
  • Role of Triethylaluminium in Polymerisation of Ethene
  • Schlenk Equilibrium
  • Ferrocene
  • Structure and Aromaticity
Reaction Kinetics and Mechanism
  • Introduction to Inorganic Reaction Mechanisms
  • Substitution Reactions in Square Planar Complexes
  • Thermodynamic and Kinetic Stability
  • Kinetics of Octahedra; Substitution
  • Ligand field Effects and Reaction Rates
  • Mechanism of Substitution in Octahedral Complexes
Catalysis by Organometallic Compounds
  • Alkene Hydrogenation
  • Hydroformylation
  • Wacker Process
  • Synthetic Gasoline
  • Synthesis Gas By Metal Carbonyl Complexes

Organic Chemistry-V

Organic Spectroscopy
  • UV Spectroscopy
  • Intensity of Absorption
  • Conjugated Dienes
  • Distinction Between Cis and Trans Isomers
  • IR Spectroscopy
  • Fundamental and Non-fundamental molecular vibrations
  • Effect of H-bonding
  • Fingerprint region and its significance
  • NMR Spectroscopy
Carbohydrates
  • Occurrence, Classification and Their Biological Importance
  • Monosaccharides
  • Haworth Projections and Conformational Structures
  • Interconversions of Aldoses and Ketoses
  • Killiani-Fischer Synthesis and Ruff Degradation
  • Disaccharides
  • Polysaccharides
Dyes
  • Classification, Colour and Constitution
  • Mordant and Vat Dyes
  • Chemistry of Dyeing
  • Triphenyl Methane Dyes
  • Phenolphthalein and Fluorescein
  • Edible Dyes with Examples
Polymers
  • Amphiphilic Polymers
  • Degree of Polymerization
  • Polydispersity Index
  • Polymerisation Reactions
  • Preparation and Applications of Plastics
  • Fabrics
  • Rubbers
  • Chloroprene and Neoprene
  • Vulcanization
  • Polymer Additives

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

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

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

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

B.Sc 3rd Year Chemistry Syllabus PDF 2022

BSc Chemistry Third (Final) Syllabus

Frequently Asked Questions (FAQs)

How many semesters are there in BSc chemistry 3rd year?

There are two semesters in BSc chemistry in 3rd year.

Can I choose elective papers in BSc 3rd year chemistry?

Yes, you select elective papers in your BSc 3rd-year chemistry.

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