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• Week 1: Introduction to quantum mechanics, Schrodinger’s wave equation
• Week 2: Postulates of quantum theory
• Week 3: Operators
• Week 4: Eigen value, Eigen function
• Week 5: Orthogonality and normalized wave functions
• Week 6: Motion of particle in three dimensional box and idea of degeneracy
• Week 7: Mathematical treatment of rigid rotator and calculation of bond length of simple molecule
• Week 8: Mid Term Exam
• Week 9: Stirling approximation. Probability. Statistical treatment of entropy. The Boltzman distribution law
• WEEK 10: Partition function. Physical significance of partition function. Separation of partition function
• Week 11: Partition function and thermodynamics functions live internal energy and entropy.
• Week 12: Translational, rotational, vibrational and electronic partition function and their comparison
• Week 13: Concept of conductance of electrolytes. Debye–Huckle equation and limiting law. Ionic strength, weak electrolytes and Debye–Huckle theory.
• Week 14: Activity and activity coefficients of electrolytic solutions. Determination of activities.
• Week 15: Concentration cells. Determination of e.m.f. of concentration cells with and without transference. Fuel cells and hydrocarbon fuel cells
• Week 16: Final Term Exam