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Lecture 1 Experimental observations and theoretical development in discovery of constituents of an a

Lecture 2: Experimental observations and theoretical development in discovery of constituents of an

Lecture 3: Experimental observations and theoretical development in discovery of constituents of an

Lecture 4: Experimental observations and theoretical development in discovery of constituents of an

Lecture 5 Experimental observations and theoretical development in discovery of constituents of an a

Lecture 6: Structure of an atom

Lecture 7: Structure of an atom

Lecture: Structure of an atom (Contd.)

Lecture 9: Atomic structure of an atom

Lecture 10: Atomic structure of an atom

Lecture 11: Structure of an atom

Lecture 12: Atomic structure of an atom

Lecture 13: Atomic structure of an atom

Lecture 14: Structure of an atom

Lecture 15: Structure of an atom

Lecture 16: Structure of an atom

Lecture 17: Structure of an atom

Lecture 18: Structure of an atom

Lecture 19: Structure of an atom

Lecture 20: Structure of an atom

Lecture 21: Atomic spectra

Lecture 22: Atomic spectra

Lecture 23: Multielectron atoms

Lecture 24: Multielectron atoms (Contd.)

Lecture 25: Multielectron atoms (Contd.)

Lecture 26: Multielectron atoms (Contd.)

Lecture 27: Quantum mechanical treatment

Lecture 28: Quantum mechanical treatment (Contd.)

Lecture 29: Quantum mechanical treatment of H-like atom

Lecture 30: Quantum mechanical treatment of H-like atom (Contd.)

Lecture 31 : Quantum mechanical treatment of Hydrogen like atom

Lecture 32 : Quantum mechanical treatment of Hydrogen like atom (Contd.)

Lecture 33 : Quantum mechanical treatment of hydrogen like atom (Contd.)

Lecture 34 : Quantum mechanical treatment of hydrogen like atom (Contd.)

Lecture 35 : Quantum mechanical treatment of hydrogen like atom (Contd.)

Lecture-36 : Quantum Mechanical treatment of Hydrogen like atom (Contd.)

Lecture-37 : Quantum Mechanical treatment of Hydrogen like atom (Contd.)

Lecture 38 : Hydrogen like atom in magnetic field

Lecture 39 : Hydrogen like atom in magnetic field (Contd.)

Lecture 40 : Hydrogen like atom in electric field

Lecture 41 : Physics of molecules

Lecture 42 : Rotation of a molecule

Lecture 43 : Rotation of a molecule (Contd.)

Lecture 44 : Rotation of a molecule (Contd.)

Lecture 45 : Rotation of a molecule (Contd.)

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Description:

Pre Requisites: : No pre-requisites Core/Elective: : Core UG/PG: : UG Industry Support: Atomic and molecular physics is a fundamental subject and Knowledge of this subject is compulsory for them who are working in physical, chemical and optical laboratories/industries. Course Intro: Atom and molecule are the fundamental unit for all matters in universe. Matter, whatever the states, is made of atoms. The properties of all matters are governed by the electronic structure of atom and molecule. They have individual properties like electronic, magnetic and optical properties, which are quite different from the collective properties of matter made of atoms and molecules. This course will enlighten the knowledge of atoms and molecules and build up the pre-requisite knowledge for all science and engineering field.

Atomic and Molecular Physics

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#Science #Physics #Quantum Mechanics #Atomic Physics #Molecular Physics

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