|
Week - 1 |
Nature of Solids, Crystal structure and Types, Ionic Crystals, Lattice Energy |
|
Week - 2 |
Molecular solids, Metalic Bonding, Conductivity in metals and Defects in crystal structure |
|
Week - 3 |
Intermolecular Forces: Van Der Walls and London Forces |
|
Week - 4 |
Hydrogen Bonding, Effects of Chemical Forces: Melting-Boling Point, Solubility, Viskosity |
|
Week - 5 |
Acid-Base chemistry:Acid-Base Concepts and Strength, Hard and Soft acids and Bases, Solubility Systems. |
|
Week - 6 |
The Coordination Chemistry in Transition Metals :Werner Theory, Coordination number and Geometry, Isomerism |
|
Week - 7 |
The Bonding Theory of Coordination Chemistry :EAN and 18 electrons Rules and applications |
|
Week - 8 |
The Bonding Theory of Coordination Chemistry: Valance bond Theory |
|
Week - 9 |
The Bonding Theory of Coordination Chemistry: Crystal Field Theory |
|
Week - 10 |
The Bonding Theory of Coordination Chemistry: Crystal Field Theory, Jahn- Teller Theory |
|
Week - 11 |
Molecular Orbital Theory in Coordination Chemistry |
|
Week - 12 |
Molecular Orbital Theory in Coordination Chemistry |
|
Week - 13 |
Magnetic properties of coordination compouds |
|
Week - 14 |
Magnetic properties of coordination compouds |
Eskisehir Technical University Info Package 
Turkish 
English