\((1)\) In option \(B\) AND \(C\) there is no transition metals so elimimated \((2)\) In \(\left[ Fe ( CO )_5\right]\) carbon monoxide is a natural ligand, therefore no involvement of \(F\) e electrons in complex, \(F\) e has zero oxidation state.
COORDINATION COMPOUNDS
28659
The complex chlorocompound diaquatriammine cobalt \((III)\) chloride is represented as
1 \([Co{(N{H_3})_3}\,{({H_2}O)_3}]C{l_2}\)
2 \([Co{(N{H_2})_3}\,\,{({H_2}O)_2}]C{l_2}\)
3 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_3}\)
4 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_2}\)
Explanation:
Chlorodiaquatriamminecobalt \((III)\) chloride is \(\left[ CoCl \left( NH _3\right)_3\left( H _2 O \right)_2\right] Cl _2\). Since.Co has \(+3\) charge so 2 chloride ion will be out of the complex ion and 1 within the complex to satisfy primary valency.
COORDINATION COMPOUNDS
28660
The complex compound \(\left[ {Co{{\left( {N{H_3}} \right)}_3}N{O_2}ClCN} \right]\) is named as
1 triamminechlorocyanonitro cobalt \( (III)\)
2 Nitrochlorocyanotriammine cobalt \( (III)\)
3 Cyanonitrochlorotriammine cobalt \((III)\)
4 Triamminenitrochlorocyano cobalt \( (III)\)
Explanation:
(a)Follow \( IUPAC\) rule.
COORDINATION COMPOUNDS
28661
The oxidation number of \( Pt\) in \({[Pt({C_2}{H_4})C{l_3}]^ - }\) is
1 \( + 1\)
2 \( + 2\)
3 \( + 3\)
4 \( + 4\)
Explanation:
Let \(x\) be the oxidation state of \(Pt\) in \(\left[ Pt \left( C _2 H _4\right) Cl _3\right]^{-}\). Since the overall charge on the complex is \(-1\), the sum of oxidation states of all elements in it should be equal to \(-1\). Therefore, \(x +0-3=-1\) or, \(x =+2\)
\((1)\) In option \(B\) AND \(C\) there is no transition metals so elimimated \((2)\) In \(\left[ Fe ( CO )_5\right]\) carbon monoxide is a natural ligand, therefore no involvement of \(F\) e electrons in complex, \(F\) e has zero oxidation state.
COORDINATION COMPOUNDS
28659
The complex chlorocompound diaquatriammine cobalt \((III)\) chloride is represented as
1 \([Co{(N{H_3})_3}\,{({H_2}O)_3}]C{l_2}\)
2 \([Co{(N{H_2})_3}\,\,{({H_2}O)_2}]C{l_2}\)
3 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_3}\)
4 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_2}\)
Explanation:
Chlorodiaquatriamminecobalt \((III)\) chloride is \(\left[ CoCl \left( NH _3\right)_3\left( H _2 O \right)_2\right] Cl _2\). Since.Co has \(+3\) charge so 2 chloride ion will be out of the complex ion and 1 within the complex to satisfy primary valency.
COORDINATION COMPOUNDS
28660
The complex compound \(\left[ {Co{{\left( {N{H_3}} \right)}_3}N{O_2}ClCN} \right]\) is named as
1 triamminechlorocyanonitro cobalt \( (III)\)
2 Nitrochlorocyanotriammine cobalt \( (III)\)
3 Cyanonitrochlorotriammine cobalt \((III)\)
4 Triamminenitrochlorocyano cobalt \( (III)\)
Explanation:
(a)Follow \( IUPAC\) rule.
COORDINATION COMPOUNDS
28661
The oxidation number of \( Pt\) in \({[Pt({C_2}{H_4})C{l_3}]^ - }\) is
1 \( + 1\)
2 \( + 2\)
3 \( + 3\)
4 \( + 4\)
Explanation:
Let \(x\) be the oxidation state of \(Pt\) in \(\left[ Pt \left( C _2 H _4\right) Cl _3\right]^{-}\). Since the overall charge on the complex is \(-1\), the sum of oxidation states of all elements in it should be equal to \(-1\). Therefore, \(x +0-3=-1\) or, \(x =+2\)
\((1)\) In option \(B\) AND \(C\) there is no transition metals so elimimated \((2)\) In \(\left[ Fe ( CO )_5\right]\) carbon monoxide is a natural ligand, therefore no involvement of \(F\) e electrons in complex, \(F\) e has zero oxidation state.
COORDINATION COMPOUNDS
28659
The complex chlorocompound diaquatriammine cobalt \((III)\) chloride is represented as
1 \([Co{(N{H_3})_3}\,{({H_2}O)_3}]C{l_2}\)
2 \([Co{(N{H_2})_3}\,\,{({H_2}O)_2}]C{l_2}\)
3 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_3}\)
4 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_2}\)
Explanation:
Chlorodiaquatriamminecobalt \((III)\) chloride is \(\left[ CoCl \left( NH _3\right)_3\left( H _2 O \right)_2\right] Cl _2\). Since.Co has \(+3\) charge so 2 chloride ion will be out of the complex ion and 1 within the complex to satisfy primary valency.
COORDINATION COMPOUNDS
28660
The complex compound \(\left[ {Co{{\left( {N{H_3}} \right)}_3}N{O_2}ClCN} \right]\) is named as
1 triamminechlorocyanonitro cobalt \( (III)\)
2 Nitrochlorocyanotriammine cobalt \( (III)\)
3 Cyanonitrochlorotriammine cobalt \((III)\)
4 Triamminenitrochlorocyano cobalt \( (III)\)
Explanation:
(a)Follow \( IUPAC\) rule.
COORDINATION COMPOUNDS
28661
The oxidation number of \( Pt\) in \({[Pt({C_2}{H_4})C{l_3}]^ - }\) is
1 \( + 1\)
2 \( + 2\)
3 \( + 3\)
4 \( + 4\)
Explanation:
Let \(x\) be the oxidation state of \(Pt\) in \(\left[ Pt \left( C _2 H _4\right) Cl _3\right]^{-}\). Since the overall charge on the complex is \(-1\), the sum of oxidation states of all elements in it should be equal to \(-1\). Therefore, \(x +0-3=-1\) or, \(x =+2\)
\((1)\) In option \(B\) AND \(C\) there is no transition metals so elimimated \((2)\) In \(\left[ Fe ( CO )_5\right]\) carbon monoxide is a natural ligand, therefore no involvement of \(F\) e electrons in complex, \(F\) e has zero oxidation state.
COORDINATION COMPOUNDS
28659
The complex chlorocompound diaquatriammine cobalt \((III)\) chloride is represented as
1 \([Co{(N{H_3})_3}\,{({H_2}O)_3}]C{l_2}\)
2 \([Co{(N{H_2})_3}\,\,{({H_2}O)_2}]C{l_2}\)
3 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_3}\)
4 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_2}\)
Explanation:
Chlorodiaquatriamminecobalt \((III)\) chloride is \(\left[ CoCl \left( NH _3\right)_3\left( H _2 O \right)_2\right] Cl _2\). Since.Co has \(+3\) charge so 2 chloride ion will be out of the complex ion and 1 within the complex to satisfy primary valency.
COORDINATION COMPOUNDS
28660
The complex compound \(\left[ {Co{{\left( {N{H_3}} \right)}_3}N{O_2}ClCN} \right]\) is named as
1 triamminechlorocyanonitro cobalt \( (III)\)
2 Nitrochlorocyanotriammine cobalt \( (III)\)
3 Cyanonitrochlorotriammine cobalt \((III)\)
4 Triamminenitrochlorocyano cobalt \( (III)\)
Explanation:
(a)Follow \( IUPAC\) rule.
COORDINATION COMPOUNDS
28661
The oxidation number of \( Pt\) in \({[Pt({C_2}{H_4})C{l_3}]^ - }\) is
1 \( + 1\)
2 \( + 2\)
3 \( + 3\)
4 \( + 4\)
Explanation:
Let \(x\) be the oxidation state of \(Pt\) in \(\left[ Pt \left( C _2 H _4\right) Cl _3\right]^{-}\). Since the overall charge on the complex is \(-1\), the sum of oxidation states of all elements in it should be equal to \(-1\). Therefore, \(x +0-3=-1\) or, \(x =+2\)
\((1)\) In option \(B\) AND \(C\) there is no transition metals so elimimated \((2)\) In \(\left[ Fe ( CO )_5\right]\) carbon monoxide is a natural ligand, therefore no involvement of \(F\) e electrons in complex, \(F\) e has zero oxidation state.
COORDINATION COMPOUNDS
28659
The complex chlorocompound diaquatriammine cobalt \((III)\) chloride is represented as
1 \([Co{(N{H_3})_3}\,{({H_2}O)_3}]C{l_2}\)
2 \([Co{(N{H_2})_3}\,\,{({H_2}O)_2}]C{l_2}\)
3 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_3}\)
4 \([CoCl{(N{H_3})_3}\,\,{({H_2}O)_2}]C{l_2}\)
Explanation:
Chlorodiaquatriamminecobalt \((III)\) chloride is \(\left[ CoCl \left( NH _3\right)_3\left( H _2 O \right)_2\right] Cl _2\). Since.Co has \(+3\) charge so 2 chloride ion will be out of the complex ion and 1 within the complex to satisfy primary valency.
COORDINATION COMPOUNDS
28660
The complex compound \(\left[ {Co{{\left( {N{H_3}} \right)}_3}N{O_2}ClCN} \right]\) is named as
1 triamminechlorocyanonitro cobalt \( (III)\)
2 Nitrochlorocyanotriammine cobalt \( (III)\)
3 Cyanonitrochlorotriammine cobalt \((III)\)
4 Triamminenitrochlorocyano cobalt \( (III)\)
Explanation:
(a)Follow \( IUPAC\) rule.
COORDINATION COMPOUNDS
28661
The oxidation number of \( Pt\) in \({[Pt({C_2}{H_4})C{l_3}]^ - }\) is
1 \( + 1\)
2 \( + 2\)
3 \( + 3\)
4 \( + 4\)
Explanation:
Let \(x\) be the oxidation state of \(Pt\) in \(\left[ Pt \left( C _2 H _4\right) Cl _3\right]^{-}\). Since the overall charge on the complex is \(-1\), the sum of oxidation states of all elements in it should be equal to \(-1\). Therefore, \(x +0-3=-1\) or, \(x =+2\)