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Flashcards for JEE Chemistry - Coordination Compounds Class 12

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Coordination Compounds
Flash cards
Page 2


Coordination Compounds
Flash cards
Different types of salt are formed due to addition of molecular compounds.
1. Double salts: Double salts are those molecular compounds which exists only in 
crystal lattice but lose their identity in solution.
e.g., KCl. MgCl
2
.6H
2
O ? K
+
+ Mg
+2
+ 3Cl
–
+ 6H
2
O.
Double salts when dissolved in water ionise.
Page 3


Coordination Compounds
Flash cards
Different types of salt are formed due to addition of molecular compounds.
1. Double salts: Double salts are those molecular compounds which exists only in 
crystal lattice but lose their identity in solution.
e.g., KCl. MgCl
2
.6H
2
O ? K
+
+ Mg
+2
+ 3Cl
–
+ 6H
2
O.
Double salts when dissolved in water ionise.
2. Complex salts: Complex salts are those molecular compounds which retain 
their identity in solid / crystal lattice as well as in the solution.
e.g., Potassium ferrocyanide is a complex compound which is formed by adding 
KCN to a saturated solution of ferrous cyanide
4KCN + Fe(CN)
2
? K
4
[Fe(CN)
6
]
K
4
[Fe(CN)
6
] is dissolved in water, the resulting solution does not give positive tests 
for ferrous or cyanide ions but we get a positive test for [Fe(CN)
6
]
4 –
.
Page 4


Coordination Compounds
Flash cards
Different types of salt are formed due to addition of molecular compounds.
1. Double salts: Double salts are those molecular compounds which exists only in 
crystal lattice but lose their identity in solution.
e.g., KCl. MgCl
2
.6H
2
O ? K
+
+ Mg
+2
+ 3Cl
–
+ 6H
2
O.
Double salts when dissolved in water ionise.
2. Complex salts: Complex salts are those molecular compounds which retain 
their identity in solid / crystal lattice as well as in the solution.
e.g., Potassium ferrocyanide is a complex compound which is formed by adding 
KCN to a saturated solution of ferrous cyanide
4KCN + Fe(CN)
2
? K
4
[Fe(CN)
6
]
K
4
[Fe(CN)
6
] is dissolved in water, the resulting solution does not give positive tests 
for ferrous or cyanide ions but we get a positive test for [Fe(CN)
6
]
4 –
.
CO-ORDINATION COMPOUNDS (Continued)
Coordination compound may be defined as a compound that results from the 
combination of apparently saturated molecules of different species and retain its 
identity in the solids as well as in dissolved state.
The formation of a coordination compound involves two components.
1. An acceptor: Which can accept a pair of electrons from the donor. The acceptor 
is usually a metal with vacant orbitals available to accept a pair of electrons from 
one or more neutral molecules or anions. In [Fe(CN)
6
]
4 –
, Fe
++
ion is an acceptor, 
which is also called as central metal ion, which acts as Lewis acid.
Page 5


Coordination Compounds
Flash cards
Different types of salt are formed due to addition of molecular compounds.
1. Double salts: Double salts are those molecular compounds which exists only in 
crystal lattice but lose their identity in solution.
e.g., KCl. MgCl
2
.6H
2
O ? K
+
+ Mg
+2
+ 3Cl
–
+ 6H
2
O.
Double salts when dissolved in water ionise.
2. Complex salts: Complex salts are those molecular compounds which retain 
their identity in solid / crystal lattice as well as in the solution.
e.g., Potassium ferrocyanide is a complex compound which is formed by adding 
KCN to a saturated solution of ferrous cyanide
4KCN + Fe(CN)
2
? K
4
[Fe(CN)
6
]
K
4
[Fe(CN)
6
] is dissolved in water, the resulting solution does not give positive tests 
for ferrous or cyanide ions but we get a positive test for [Fe(CN)
6
]
4 –
.
CO-ORDINATION COMPOUNDS (Continued)
Coordination compound may be defined as a compound that results from the 
combination of apparently saturated molecules of different species and retain its 
identity in the solids as well as in dissolved state.
The formation of a coordination compound involves two components.
1. An acceptor: Which can accept a pair of electrons from the donor. The acceptor 
is usually a metal with vacant orbitals available to accept a pair of electrons from 
one or more neutral molecules or anions. In [Fe(CN)
6
]
4 –
, Fe
++
ion is an acceptor, 
which is also called as central metal ion, which acts as Lewis acid.
CO-ORDINATION COMPOUNDS (Continued)
2. A donor : An atom or a molecule which can donate a pair of electrons is a donor. 
Such donor atoms or molecules are electron rich and are called ligands, which act as 
Lewis bases.
Ligands may be neutral (NH
3
, H
2
O, C
6
H
5
N) or negatively charged species (:CN
–
,Cl
–
, 
Br
–
) or positively charged
Ligand is said to be unidentate if it has only one pair of electrons that it can donate 
e.g., NH
3
Ligand is said to be bidentate if it can bond from two positions
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FAQs on Flashcards for JEE Chemistry - Coordination Compounds Class 12

1. What are coordination compounds?
Ans. Coordination compounds are molecules that consist of a central metal ion or atom surrounded by ligands. The ligands are molecules or ions that donate electron pairs to the metal ion, forming coordinate bonds. These compounds exhibit unique properties due to the coordination between the metal and ligands.
2. How are coordination compounds named?
Ans. Coordination compounds are named using a specific set of rules. The cation, or the positive part of the compound, is named before the anion. The ligands are named in alphabetical order, followed by the metal ion or atom name. In some cases, prefixes such as "di-", "tri-", or "tetra-" are used to indicate the number of ligands. Roman numerals are used to denote the oxidation state of the metal ion.
3. What is the role of ligands in coordination compounds?
Ans. Ligands play a crucial role in coordination compounds. They donate electron pairs to the metal ion, forming coordinate bonds. The number and type of ligands determine the overall structure, stability, and properties of the coordination compound. Different ligands can result in different colors, magnetic properties, and reactivity of the compound.
4. How do coordination compounds exhibit isomerism?
Ans. Coordination compounds can exhibit different types of isomerism. Structural isomerism occurs when the connectivity or spatial arrangement of atoms within the compound is different, while stereoisomerism occurs when the arrangement of ligands around the metal ion is different. Isomerism in coordination compounds arises due to the different possible ways in which ligands can be arranged around the central metal ion.
5. What are some applications of coordination compounds?
Ans. Coordination compounds have various applications in fields such as medicine, catalysis, and materials science. They are used as anticancer drugs, contrast agents in medical imaging, and catalysts in chemical reactions. Coordination compounds also find applications in the development of new materials, such as sensors and light-emitting devices.
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