*Year 1: Core Foundations* 

*Semester 1: * 

- *Physics: * Mechanics, Waves & Oscillations 

- *Chemistry: * Atomic Structure, Chemical Bonding 

- *Mathematics: * Calculus, Algebra 

- Lab: Physics Experiments (Vernier Callipers, Young’s Modulus) + Chemistry Titrations 

*Semester 2: * 

- *Physics: * Thermodynamics, Electromagnetism 

- *Chemistry: * States of Matter, Thermodynamics 

- *Mathematics: * Differential Equations, Vector Calculus 

- Lab: Optics (Diffraction Grating) + Organic Chemistry Prep 

*Year 2: Intermediate Concepts* 

*Semester 3: * 

- *Physics: * Optics, Modern Physics (Quantum Basics) 

- *Chemistry: * Coordination Chemistry, Chemical Kinetics 

- *Mathematics: * Real Analysis, Linear Algebra 

- Lab: Spectrophotometry (Physics) + Electrochemistry (Chemistry) 

*Semester 4:* 

- *Physics:* Semiconductor Electronics, Nuclear Physics 

- *Chemistry:* Biomolecules, Polymers 

- *Mathematics:* Complex Analysis, Probability 

- Lab: Logic Gates (Physics) + Chromatography (Chemistry) 

*Year 3: Advanced Topics & Electives* 

*Semester 5:* 

- *Physics: * Solid State Physics, Astrophysics 

- *Chemistry: * Nano chemistry, Environmental Chemistry 

- *Mathematics: * Numerical Methods, Discrete Math 

- *Elective (Choose 1):* 

  - CS Programming (Python/C) 

  - Industrial Chemistry 

  - Mathematical Modelling 

- Lab: Project Work (Interdisciplinary) 

*Semester 6: * 

- *Physics: * Particle Physics, Cosmology 

- *Chemistry: * Green Chemistry, Spectroscopy 

- *Mathematics: * Operations Research, Graph Theory 

- Research Project/Dissertation (PCM-focused) 

*Key Features: * 

- *Interdisciplinary Labs: * Combine physics experiments (e.g., Hall Effect) with chemical analysis. 

- *Math-Physics Synergy: * Quantum mechanics uses differential equations; chemistry applies calculus in kinetics. 

- *Electives: * Bridge to engineering/CS fields.