28840
The oxidation state of \(Fe\) in \({K_4}[Fe{(CN)_6}]\) is
1 \(2\)
2 \(-2\)
3 \(3\)
4 \(4\)
Explanation:
(a) \(4 \times ( + 1) + x + 6 \times - 1 = 0\) or \(x = + 6 - 4 = + 2\) Oxidation state of \(Fe = + 2\)
COORDINATION COMPOUNDS
28841
The number of moles of \(AgCl\) precipitate when excess of \(AgN{O_3}\) is added to one mole of \([Cr{\left( {N{H_3}} \right)_4}C{l_2}]Cl\) is
1 \(0\)
2 \(1\)
3 \(2\)
4 \(3\)
Explanation:
(b) In this complex chloride ion in the form of ionic isomerism and show primary valency. \(AgN{O_3}\) is added in excess then result precipitation will occur.
COORDINATION COMPOUNDS
28842
An anion solution gives a white ppt. With \(AgN{O_3}\) solution. The ppt. dissolves in dil. ammonia due to the formation of
28840
The oxidation state of \(Fe\) in \({K_4}[Fe{(CN)_6}]\) is
1 \(2\)
2 \(-2\)
3 \(3\)
4 \(4\)
Explanation:
(a) \(4 \times ( + 1) + x + 6 \times - 1 = 0\) or \(x = + 6 - 4 = + 2\) Oxidation state of \(Fe = + 2\)
COORDINATION COMPOUNDS
28841
The number of moles of \(AgCl\) precipitate when excess of \(AgN{O_3}\) is added to one mole of \([Cr{\left( {N{H_3}} \right)_4}C{l_2}]Cl\) is
1 \(0\)
2 \(1\)
3 \(2\)
4 \(3\)
Explanation:
(b) In this complex chloride ion in the form of ionic isomerism and show primary valency. \(AgN{O_3}\) is added in excess then result precipitation will occur.
COORDINATION COMPOUNDS
28842
An anion solution gives a white ppt. With \(AgN{O_3}\) solution. The ppt. dissolves in dil. ammonia due to the formation of
28840
The oxidation state of \(Fe\) in \({K_4}[Fe{(CN)_6}]\) is
1 \(2\)
2 \(-2\)
3 \(3\)
4 \(4\)
Explanation:
(a) \(4 \times ( + 1) + x + 6 \times - 1 = 0\) or \(x = + 6 - 4 = + 2\) Oxidation state of \(Fe = + 2\)
COORDINATION COMPOUNDS
28841
The number of moles of \(AgCl\) precipitate when excess of \(AgN{O_3}\) is added to one mole of \([Cr{\left( {N{H_3}} \right)_4}C{l_2}]Cl\) is
1 \(0\)
2 \(1\)
3 \(2\)
4 \(3\)
Explanation:
(b) In this complex chloride ion in the form of ionic isomerism and show primary valency. \(AgN{O_3}\) is added in excess then result precipitation will occur.
COORDINATION COMPOUNDS
28842
An anion solution gives a white ppt. With \(AgN{O_3}\) solution. The ppt. dissolves in dil. ammonia due to the formation of
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COORDINATION COMPOUNDS
28840
The oxidation state of \(Fe\) in \({K_4}[Fe{(CN)_6}]\) is
1 \(2\)
2 \(-2\)
3 \(3\)
4 \(4\)
Explanation:
(a) \(4 \times ( + 1) + x + 6 \times - 1 = 0\) or \(x = + 6 - 4 = + 2\) Oxidation state of \(Fe = + 2\)
COORDINATION COMPOUNDS
28841
The number of moles of \(AgCl\) precipitate when excess of \(AgN{O_3}\) is added to one mole of \([Cr{\left( {N{H_3}} \right)_4}C{l_2}]Cl\) is
1 \(0\)
2 \(1\)
3 \(2\)
4 \(3\)
Explanation:
(b) In this complex chloride ion in the form of ionic isomerism and show primary valency. \(AgN{O_3}\) is added in excess then result precipitation will occur.
COORDINATION COMPOUNDS
28842
An anion solution gives a white ppt. With \(AgN{O_3}\) solution. The ppt. dissolves in dil. ammonia due to the formation of
28840
The oxidation state of \(Fe\) in \({K_4}[Fe{(CN)_6}]\) is
1 \(2\)
2 \(-2\)
3 \(3\)
4 \(4\)
Explanation:
(a) \(4 \times ( + 1) + x + 6 \times - 1 = 0\) or \(x = + 6 - 4 = + 2\) Oxidation state of \(Fe = + 2\)
COORDINATION COMPOUNDS
28841
The number of moles of \(AgCl\) precipitate when excess of \(AgN{O_3}\) is added to one mole of \([Cr{\left( {N{H_3}} \right)_4}C{l_2}]Cl\) is
1 \(0\)
2 \(1\)
3 \(2\)
4 \(3\)
Explanation:
(b) In this complex chloride ion in the form of ionic isomerism and show primary valency. \(AgN{O_3}\) is added in excess then result precipitation will occur.
COORDINATION COMPOUNDS
28842
An anion solution gives a white ppt. With \(AgN{O_3}\) solution. The ppt. dissolves in dil. ammonia due to the formation of
