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Werner's Theory of Coordination Compounds Video Lecture - Class 12

FAQs on Werner's Theory of Coordination Compounds Video Lecture - Class 12

1. What is Werner's theory of coordination compounds?
Ans. Werner's theory of coordination compounds, proposed by Alfred Werner in 1893, explains the bonding and structure of coordination compounds. According to this theory, a coordination compound consists of a central metal atom or ion surrounded by ligands that are attached to the central atom through coordinate bonds.
2. How does Werner's theory explain the formation of coordination compounds?
Ans. Werner's theory states that the central metal atom or ion in a coordination compound has a fixed coordination number, which determines the maximum number of ligands it can bind to. The ligands donate a pair of electrons to the central atom to form coordinate bonds, resulting in the formation of a stable complex.
3. What is the significance of coordination numbers in Werner's theory?
Ans. Coordination numbers play a crucial role in Werner's theory. The coordination number of a metal atom or ion is the number of coordinate bonds formed with ligands. It determines the geometry and stability of the coordination complex. Different coordination numbers lead to different complex geometries, such as octahedral, tetrahedral, or square planar.
4. How does Werner's theory explain the isomerism in coordination compounds?
Ans. Werner's theory provides an explanation for the existence of isomerism in coordination compounds. Isomers are compounds with the same molecular formula but different arrangements of atoms. In coordination compounds, isomerism can arise due to different spatial arrangements of ligands around the central atom, known as geometric isomerism. Werner's theory explains geometric isomerism based on the different possible arrangements of ligands in space.
5. Can you provide an example to illustrate Werner's theory of coordination compounds?
Ans. Sure! Let's consider the coordination compound [Co(NH3)6]Cl3. According to Werner's theory, the central cobalt (Co) atom has a coordination number of six, as it is surrounded by six ammonia (NH3) ligands. The ammonia ligands donate a pair of electrons each to form coordinate bonds with the cobalt atom. The chloride (Cl) ions are not directly bonded to the cobalt atom but are present as counter ions to balance the charges. This example demonstrates the application of Werner's theory in understanding the structure and bonding in coordination compounds.
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