Complete Chemistry Degree Program Guide 2024 – Master Organic, Inorganic & Physical Chemistry

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BS Chemistry Degree Program

Chemistry curriculum covering organic chemistry, inorganic chemistry, physical chemistry, and analytical chemistry. 4-year BS program.

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Semesters

35+

Chemistry Courses

Lab Sessions

Specializations

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

🔬 Semester III – Physical Chemistry

CHE-631: Physical Chemistry

Thermodynamics, kinetics, and quantum mechanics principles

CHE-631L: Laboratory

Experimental physical chemistry and instrumentation

📊 Semester IV – Analytical & Bio

CHE-641: Analytical Chemistry

Quantitative analysis and instrumental methods

CHE-641L: Laboratory

Advanced analytical techniques and data analysis

🎯 Semester V – Advanced Core

CHE-651: Advanced Inorganic Chemistry

CHE-652: Advanced Organic Chemistry

CHE-653: Advanced Physical Chemistry

CHE-654: Advanced Analytical Chemistry

CHE-654L: Advanced Lab

🚀 Semester VI – Specialization Prep

CHE-661: Specialized Inorganic

CHE-662: Specialized Organic

CHE-663: Specialized Physical

CHE-664: Specialized Analytical

CHE-603: Nanotechnology

🔷 Inorganic Chemistry Track

Semester VII:

CHEI-671: Inorganic Reaction Mechanism
CHEI-672: π-Acceptor Ligands & Polymers
CHEI-673: Inorganic Spectroscopy
CHEI-674L: Specialized Lab-I

Semester VIII:

CHEI-681: Organometallics
CHEI-682: Symmetry & Magnetochemistry
CHEI-683: Radio & Nuclear Chemistry
CHEI-684L: Advanced Lab-II

🌿 Organic Chemistry Track

Semester VII:

CHEO-671: Heterocyclic & Organometallic
CHEO-672: Reactive Intermediates
CHEO-673: Organic Spectroscopy
CHEO-674L: Synthesis Lab-I

Semester VIII:

CHEO-681: Natural Products
CHEO-682: Organic Synthesis
CHEO-683: Medicinal Chemistry
CHEO-684L: Advanced Synthesis Lab

⚡ Physical Chemistry Track

Semester VII:

CHEP-671: Electrochemistry & Thermodynamics
CHEP-672: Polymer Chemistry
CHEP-673: Quantum & Molecular Spectroscopy
CHEP-674L: Physical Lab-I

Semester VIII:

CHEP-3883: Reaction Dynamics
CHEP-3885: Radiation & Photochemistry
CHEP-3887: Colloid & Surface Chemistry
CHEP-3888L: Advanced Physical Lab

📊 Analytical Chemistry Track

Semester VII:

CHEA-671: Atomic Spectroscopy
CHEA-672: Electroanalytical Techniques
CHEA-673: Advanced Separation Techniques
CHEA-674L: Analytical Lab-I

Semester VIII:

CHEA-3883: Luminescence & Thermal Techniques
CHEA-3885: Kinetic Method of Analysis
CHEA-3887: Food & Drug Analysis
CHEA-3888L: Advanced Analytical Lab

🧬 Biochemistry Track

Semester VIII:

CHEB-3883: Microbiology & Immunology
CHEB-3885: Bionanotechnology
CHEB-3887: Nutritional Chemistry
CHEB-3888L: Biochemistry Lab-II

🧮 Numerical Problems

Physical Chemistry Problem

Calculate the pH of a 0.1 M solution of acetic acid (Ka = 1.8 × 10⁻⁵)

Solution:

For weak acid: pH = ½(pKa – log C)

pKa = -log(1.8 × 10⁻⁵) = 4.74

pH = ½(4.74 – log(0.1)) = ½(4.74 + 1) = 2.87

Organic Chemistry Problem

How many stereoisomers are possible for 2,3-dichlorobutane?

Solution:

2,3-dichlorobutane has 2 chiral centers

Maximum stereoisomers = 2ⁿ = 2² = 4

But due to meso form, actual stereoisomers = 3

(2 enantiomers + 1 meso compound)

Analytical Chemistry Problem

Calculate molarity of NaOH if 25 mL requires 30 mL of 0.1 M HCl for neutralization

Solution:

At equivalence point: M₁V₁ = M₂V₂

M(NaOH) × 25 = 0.1 × 30

M(NaOH) = 3.0/25 = 0.12 M

🔬 Lab Calculations

Inorganic Chemistry Problem

Calculate the crystal field stabilization energy for [Fe(CN)₆]³⁻ complex

Solution:

Fe³⁺ has d⁵ configuration

CN⁻ is strong field ligand (low spin)

Configuration: t₂g⁵ eg⁰

CFSE = 5(-0.4Δₒ) + 0(0.6Δₒ) = -2.0Δₒ

Thermodynamics Problem

Calculate ΔG° for a reaction at 298K if Keq = 1.5 × 10³

Solution:

ΔG° = -RT ln Keq

ΔG° = -(8.314)(298) ln(1.5 × 10³)

ΔG° = -2479.6 × 7.31 = -18.1 kJ/mol

Spectroscopy Problem

Calculate the wavelength of light absorbed by an electron transitioning from n=2 to n=4 in hydrogen

Solution:

1/λ = R(1/n₁² – 1/n₂²)

1/λ = 1.097×10⁷(1/4 – 1/16)

1/λ = 1.097×10⁷ × 3/16 = 2.06×10⁶ m⁻¹

λ = 486 nm (Blue-green light)

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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