\(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]\) There is no ions out of the coordination sphere thus it is poor conductor in electrolytic solution \(K_{2}\left[P t C l_{6}\right]=3 i o n s\) \(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]=\) out of the coordination sphere no ions (non ionisable) \(K_{4}\left[F e(C N)_{6}\right]=5\) ions \(\left[ Co \left( NH _{3}\right)_{4}\right] . SO _{4}=2\) ions More ions \(\propto\) more conductivity
COORDINATION COMPOUNDS
28693
The possible number of optical isomers in \({[Co{(en)_2}C{l_2}]^ + }\) are
1 \(2\)
2 \( 3\)
3 \(4\)
4 \(6\)
Explanation:
(b) \({[Co\,{(en)_2}C{l_2}]^ + }\) have three optical isomers which are.
COORDINATION COMPOUNDS
28694
Magnetic moment of \({[Cu{(N{H_3})_4}]^{2 + }}\)ion is
1 \(1.73\)
2 \(1.41\)
3 \(2.23\)
4 \(2.38\)
Explanation:
(a) Magnetic moment of \({[Cu\,{(N{H_3})_4}]^{2 + }}\) ion is \( 1.414\) due to the presence of one unpaired electron.
COORDINATION COMPOUNDS
28695
What is true for \({[Fe{(CN)_6}]^{3 - }}\) and \({[Fe{F_6}]^{3 - }}\)
1 Both are paramagnetic
2 Only \({[Fe{(CN)_6}]^{3 - }}\) is paramagnetic
3 Only \({[Fe{F_6}]^{3 - }}\) is paramagnetic
4 Both are diamagnetic
Explanation:
(a) Due to the presence of one unpaired electron, both are slightly paramagnetic.
\(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]\) There is no ions out of the coordination sphere thus it is poor conductor in electrolytic solution \(K_{2}\left[P t C l_{6}\right]=3 i o n s\) \(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]=\) out of the coordination sphere no ions (non ionisable) \(K_{4}\left[F e(C N)_{6}\right]=5\) ions \(\left[ Co \left( NH _{3}\right)_{4}\right] . SO _{4}=2\) ions More ions \(\propto\) more conductivity
COORDINATION COMPOUNDS
28693
The possible number of optical isomers in \({[Co{(en)_2}C{l_2}]^ + }\) are
1 \(2\)
2 \( 3\)
3 \(4\)
4 \(6\)
Explanation:
(b) \({[Co\,{(en)_2}C{l_2}]^ + }\) have three optical isomers which are.
COORDINATION COMPOUNDS
28694
Magnetic moment of \({[Cu{(N{H_3})_4}]^{2 + }}\)ion is
1 \(1.73\)
2 \(1.41\)
3 \(2.23\)
4 \(2.38\)
Explanation:
(a) Magnetic moment of \({[Cu\,{(N{H_3})_4}]^{2 + }}\) ion is \( 1.414\) due to the presence of one unpaired electron.
COORDINATION COMPOUNDS
28695
What is true for \({[Fe{(CN)_6}]^{3 - }}\) and \({[Fe{F_6}]^{3 - }}\)
1 Both are paramagnetic
2 Only \({[Fe{(CN)_6}]^{3 - }}\) is paramagnetic
3 Only \({[Fe{F_6}]^{3 - }}\) is paramagnetic
4 Both are diamagnetic
Explanation:
(a) Due to the presence of one unpaired electron, both are slightly paramagnetic.
\(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]\) There is no ions out of the coordination sphere thus it is poor conductor in electrolytic solution \(K_{2}\left[P t C l_{6}\right]=3 i o n s\) \(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]=\) out of the coordination sphere no ions (non ionisable) \(K_{4}\left[F e(C N)_{6}\right]=5\) ions \(\left[ Co \left( NH _{3}\right)_{4}\right] . SO _{4}=2\) ions More ions \(\propto\) more conductivity
COORDINATION COMPOUNDS
28693
The possible number of optical isomers in \({[Co{(en)_2}C{l_2}]^ + }\) are
1 \(2\)
2 \( 3\)
3 \(4\)
4 \(6\)
Explanation:
(b) \({[Co\,{(en)_2}C{l_2}]^ + }\) have three optical isomers which are.
COORDINATION COMPOUNDS
28694
Magnetic moment of \({[Cu{(N{H_3})_4}]^{2 + }}\)ion is
1 \(1.73\)
2 \(1.41\)
3 \(2.23\)
4 \(2.38\)
Explanation:
(a) Magnetic moment of \({[Cu\,{(N{H_3})_4}]^{2 + }}\) ion is \( 1.414\) due to the presence of one unpaired electron.
COORDINATION COMPOUNDS
28695
What is true for \({[Fe{(CN)_6}]^{3 - }}\) and \({[Fe{F_6}]^{3 - }}\)
1 Both are paramagnetic
2 Only \({[Fe{(CN)_6}]^{3 - }}\) is paramagnetic
3 Only \({[Fe{F_6}]^{3 - }}\) is paramagnetic
4 Both are diamagnetic
Explanation:
(a) Due to the presence of one unpaired electron, both are slightly paramagnetic.
\(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]\) There is no ions out of the coordination sphere thus it is poor conductor in electrolytic solution \(K_{2}\left[P t C l_{6}\right]=3 i o n s\) \(\left[ Co \left( NH _{3}\right)_{3}\left( NO _{2}\right)_{3}\right]=\) out of the coordination sphere no ions (non ionisable) \(K_{4}\left[F e(C N)_{6}\right]=5\) ions \(\left[ Co \left( NH _{3}\right)_{4}\right] . SO _{4}=2\) ions More ions \(\propto\) more conductivity
COORDINATION COMPOUNDS
28693
The possible number of optical isomers in \({[Co{(en)_2}C{l_2}]^ + }\) are
1 \(2\)
2 \( 3\)
3 \(4\)
4 \(6\)
Explanation:
(b) \({[Co\,{(en)_2}C{l_2}]^ + }\) have three optical isomers which are.
COORDINATION COMPOUNDS
28694
Magnetic moment of \({[Cu{(N{H_3})_4}]^{2 + }}\)ion is
1 \(1.73\)
2 \(1.41\)
3 \(2.23\)
4 \(2.38\)
Explanation:
(a) Magnetic moment of \({[Cu\,{(N{H_3})_4}]^{2 + }}\) ion is \( 1.414\) due to the presence of one unpaired electron.
COORDINATION COMPOUNDS
28695
What is true for \({[Fe{(CN)_6}]^{3 - }}\) and \({[Fe{F_6}]^{3 - }}\)
1 Both are paramagnetic
2 Only \({[Fe{(CN)_6}]^{3 - }}\) is paramagnetic
3 Only \({[Fe{F_6}]^{3 - }}\) is paramagnetic
4 Both are diamagnetic
Explanation:
(a) Due to the presence of one unpaired electron, both are slightly paramagnetic.
