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Unit - 1 Atomic And Molecular Structure
Unit – 1
Atomic And Molecular Structure
1.1 Failure of classical Newtonian and Maxwell mechanics to explain properties of particle in atomic and subatomic level
1.2 Electromagnetic Radiation
1.3 Dual nature of Electrons and Electromagnetic Radiation
1.4 Planck’s theory
1.5 Photoelectric effect and failure of Heisenberg uncertainty principle
1.6 Failure of earlier theories to explain certain properties of molecules like paramagnetic properties
1.7 Principles for combination of atomic orbitals to form molecular orbitals
1.8 Formation of Homo and Hetero Diatomic molecules and plots of energy level diagram of Molecular Orbitals
1.9 Coordination numbers and Geometrics
Unit – 1
Atomic And Molecular Structure
1.1 Failure of classical Newtonian and Maxwell mechanics to explain properties of particle in atomic and subatomic level
1.2 Electromagnetic Radiation
1.3 Dual nature of Electrons and Electromagnetic Radiation
1.4 Planck’s theory
1.5 Photoelectric effect and failure of Heisenberg uncertainty principle
1.6 Failure of earlier theories to explain certain properties of molecules like paramagnetic properties
1.7 Principles for combination of atomic orbitals to form molecular orbitals
1.8 Formation of Homo and Hetero Diatomic molecules and plots of energy level diagram of Molecular Orbitals
1.9 Coordination numbers and Geometrics
Unit - 2 Spectroscopic Techniques And Applications
Unit 2
Spectroscopic techniques and applications
2.1 Principles of vibrational and rotational spectroscopy
2.2 Elementary idea of Electronic Spectroscopy
2.3 UVVIS Spectroscopy related rules and applications
2.4 Fluorescence and its Application in Medicine
2.5 Basic principle of Nuclear Magnetic Resonance and its Application
2.6 Basics of Magnetic Resonance Imaging MRI
Unit 2
Spectroscopic techniques and applications
2.1 Principles of vibrational and rotational spectroscopy
2.2 Elementary idea of Electronic Spectroscopy
2.3 UVVIS Spectroscopy related rules and applications
2.4 Fluorescence and its Application in Medicine
2.5 Basic principle of Nuclear Magnetic Resonance and its Application
2.6 Basics of Magnetic Resonance Imaging MRI
Unit - 3 Intermolecular Forces And Properties Of Gases
Unit 3
Intermolecular forces and properties of gases
3.1 Ionic Dipolar and Van Der Waal’s interactions
3.2 Equations of State of Ideal and Real gases
3.3 Deviation from Ideal behaviour
3.4 Van der Waals Gas Equation
Unit 3
Intermolecular forces and properties of gases
3.1 Ionic Dipolar and Van Der Waal’s interactions
3.2 Equations of State of Ideal and Real gases
3.3 Deviation from Ideal behaviour
3.4 Van der Waals Gas Equation
Unit - 4 Use Of Free Energy In Chemical Equilibria & Water Chemistry
Unit 4
Use of Free Energy in Chemical Equilibria and Water Chemistry
4.1 Thermodynamic Functions Energy Enthalpy Entropy and Free Energy
4.2 Equations to interrelate thermodynamic properties
4.3 EMF and Cell Potential
4.4 Nernst Equation and its application
4.5 Corrosion
4.6 Uses of free energy considerations in metallurgy though Ellingham diagram
4.7 Solubility equilibria
4.8 Water Chemistry Hard and Soft water
4.9 Parameters of quality of water to be used in different Industries as for Drinking water
4.10 Calculation of hardness of water in all units
4.11 Estimation of Hardness of water by EDTA Method and Alkalinity Method
4.12 Removal of hardness of water by lime soda and Ion Exchange Method including Zeolite method
Unit 4
Use of Free Energy in Chemical Equilibria and Water Chemistry
4.1 Thermodynamic Functions Energy Enthalpy Entropy and Free Energy
4.2 Equations to interrelate thermodynamic properties
4.3 EMF and Cell Potential
4.4 Nernst Equation and its application
4.5 Corrosion
4.6 Uses of free energy considerations in metallurgy though Ellingham diagram
4.7 Solubility equilibria
4.8 Water Chemistry Hard and Soft water
4.9 Parameters of quality of water to be used in different Industries as for Drinking water
4.10 Calculation of hardness of water in all units
4.11 Estimation of Hardness of water by EDTA Method and Alkalinity Method
4.12 Removal of hardness of water by lime soda and Ion Exchange Method including Zeolite method
Unit - 5 Periodic Properties
Unit 5
Periodic properties
5.1 Effective Nuclear charge Penetration of Orbitals variations of s p d and f orbitals energies of atoms in the periodic table
5.2 Electron Configuration Atomic and Ionic Sizes Ionization Energies
5.3 Electron affinity and electronegativity polarizability Acid Base Principle of HSAB Theory Oxidation states Hybridization and molecular geometries
Unit 5
Periodic properties
5.1 Effective Nuclear charge Penetration of Orbitals variations of s p d and f orbitals energies of atoms in the periodic table
5.2 Electron Configuration Atomic and Ionic Sizes Ionization Energies
5.3 Electron affinity and electronegativity polarizability Acid Base Principle of HSAB Theory Oxidation states Hybridization and molecular geometries
Unit - 6 Stereochemistry
Unit 6
Stereochemistry
6.1 Representations of 3D Structures
6.2 Structural Isomers and Stereo Isomers Configurations
6.3 Symmetry and chirality
6.4 Enantiomers and Diastereomers
6.5 Optical activity
6.6 Absolute configuration and conformational analysis
Unit 6
Stereochemistry
6.1 Representations of 3D Structures
6.2 Structural Isomers and Stereo Isomers Configurations
6.3 Symmetry and chirality
6.4 Enantiomers and Diastereomers
6.5 Optical activity
6.6 Absolute configuration and conformational analysis
Unit - 7 Organic Reactions And Synthesis Of A Drug Molecule
Unit 7
Organic reactions and synthesis of a drug module
7.1 Introduction to intermediates and reactions involving substitution addition elimination Oxidationreduction Diels Elder Cyclization and Epoxide Ring open reactions
7.2 Synthesis of a commonly used drug module like Aspirin
Unit 7
Organic reactions and synthesis of a drug module
7.1 Introduction to intermediates and reactions involving substitution addition elimination Oxidationreduction Diels Elder Cyclization and Epoxide Ring open reactions
7.2 Synthesis of a commonly used drug module like Aspirin
Download CSE First Year syllabus pdf
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Other Subjects of first-year
English
Engineering physics
Engineering graphics
Engineering mechanics
Engineering mathematics-ii
Engineering mathematics – i
Basic electrical engineering
Basic electronics engineering
Systems in mechanical engineering
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