Chemsitry Resources ▾
- Acids and Bases
- Adsorption
- Advanced Analytical Chemistry Lab Experiments
- Analytical Chemistry Lab Experiments
- Analytical Spectrophotometry (UV-Vis, FTIR, Beer’s Law)
- Applied Chemistry
- Atomic Models (Bohr & Rutherford)
- Basic Coordination Chemistry
- Basic Maths
- Basic Organic Chemistry
- BS Chemistry Curriculum
- Catalysis
- Chemical Bonding
- Chemical Bonding — Lewis Theory
- Chemical Bonding — Orbital Theory
- Chemical Equilibrium
- Chemical Industry Fundamentals v2.0
- Chemical Industry Fundamentals v3.0
- Chemical Kinetics
- Chemical Thermodynamics
- Chemistry Quiz
- Chemistry Reference Table
- Chemistry Resources (landing)
- Classification of Elements (s/p/d/f orbitals)
- Colloids
- Concentration Calculator
- Conductometry, Electrochemistry & Nuclear Chemistry
- Coordination Chemistry
- Determining Acetic Acid in Vinegar
- Distribution Law
- Electrolysis & Electrical Conductance
- Electromotive Force
- Environmental Chemistry
- First Law of Thermodynamics — Basic Concepts
- Gaseous State
- Green Chemistry
- Group Trends & Periodic Properties (s & p block)
- Inorganic Chemistry
- Inorganic Chemistry Lab Experiments
- Inorganic Materials Chemistry
- Introduction to Analytical Chemistry
- Introduction to Coordination Chemistry
- Ionic Equilibria & Solubility Product
- Is Osmosis Active or Passive?
- Isotopes, Isobars & Isotones
- Kinetic Methods of Analysis
- Kinetic Theory of Gases
- Lab Safety Guide — Good Laboratory Practices
- Liquid State
- Luminescence Spectroscopy & Thermal Analysis
- Medicinal Chemistry
- Natural Product & Multistep Synthesis Lab
- Nuclear Chemistry
- Organic Chemistry — Reactions
- Organic Synthesis
- Photochemistry
- Physical Chemistry — Basic Maths
- Physical Chemistry Lab
- Physical Properties & Chemical Constitution
- Salt Hydrolysis
- Second Law of Thermodynamics
- Solid State
- Solutions
- Standardizing NaOH with KHP
- Structure of Atom — Classical Mechanics
- Structure of Atom — Wave-Mechanical Approach
- Surface Tension & Viscosity
- Temperature Conversion
- Theory of Dilute Solutions
- Theory of Electrolytic Dissociation
- The Periodic Law & Periodicity
- The Phase Rule
- Thermochemistry
- Valence Bond Theory (VBT)
- Organic Chemistry Lab
BS Chemistry Degree Program Curriculum
Chemistry Degree Curriculum Overview
Semester I – Foundation
CHE-611: Inorganic Chemistry
Master atomic structure, periodic trends, and chemical bonding fundamentals
CHE-611L: Laboratory
Hands-on experiments in inorganic synthesis and analysis
CHE-601: Environmental Chemistry
Study chemical processes in air, water, and soil systems
Semester II – Organic Foundation
CHE-621: Organic Chemistry
Introduction to organic compounds, reactions, and mechanisms
CHE-602: Applied Chemistry
Real-world applications of chemical principles in industry
Frequently Asked Questions
The BS Chemistry program includes comprehensive courses in organic chemistry, inorganic chemistry, physical chemistry, analytical chemistry, biochemistry, environmental chemistry, and nanotechnology across 8 semesters with extensive laboratory work.
The program includes multiple lab courses: CHE-611L, CHE-631L, CHE-641L, CHE-654L, CHE-664L, and specialized lab courses in the final year for each chemistry branch, providing hands-on experience with modern instrumentation.
Students can specialize in Inorganic Chemistry, Organic Chemistry, Physical Chemistry, Analytical Chemistry, or Biochemistry, each with dedicated advanced courses and research opportunities.
Graduates can pursue careers in pharmaceutical research, environmental consulting, quality control, forensic science, materials science, teaching, or continue to graduate studies in chemistry or related fields.
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