189988 Choose the correct order of \(C - C\) bond length in the given compounds

189989 In which of the following silicates, only two comers per tetrahedron are shared ?\((i)\) Pyro silicate\((ii)\) Cyclic silicate\((iii)\) Double chain silicate\((iv)\) Single chain silicate\((v)\) \(3D\) silicate\((vi)\) Sheet silicate

189990 The correct code for stability of oxidation states for given cations is\((i)\) \(P{b^{2 + }} > P{b^{4 + }},T{l^ + } < T{l^{3 + }}\)         \((ii)\) \(Bi^{3+} < Sb^{3+} , Sn^{2+} < sn^{4+}\)\((iii)\) \(P{b^{2 + }} > P{b^{4 + }},B{i^{3 + }} > B{i^{5 + }}\)     \((iv)\) \(T{l^{3 + }} < I{n^{3 + }},S{n^{2 + }} > S{n^{4 + }}\)\((v)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} > P{b^{4 + }}\)     \((vi)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} < P{b^{4 + }}\)

189991 Which acid is not an arrhenius acid

189992 \({H_3}B{O_3}\,\xrightarrow{{{T_1}}}X\,\xrightarrow{{{T_2}}}Y\,\xrightarrow{{\operatorname{Re} d\,\,\,hot}}{B_2}{O_3}\)if \(T_1 < T_2\) then \(X\) and \(Y\) respectively are

189988 Choose the correct order of \(C - C\) bond length in the given compounds

189989 In which of the following silicates, only two comers per tetrahedron are shared ?\((i)\) Pyro silicate\((ii)\) Cyclic silicate\((iii)\) Double chain silicate\((iv)\) Single chain silicate\((v)\) \(3D\) silicate\((vi)\) Sheet silicate

189990 The correct code for stability of oxidation states for given cations is\((i)\) \(P{b^{2 + }} > P{b^{4 + }},T{l^ + } < T{l^{3 + }}\)         \((ii)\) \(Bi^{3+} < Sb^{3+} , Sn^{2+} < sn^{4+}\)\((iii)\) \(P{b^{2 + }} > P{b^{4 + }},B{i^{3 + }} > B{i^{5 + }}\)     \((iv)\) \(T{l^{3 + }} < I{n^{3 + }},S{n^{2 + }} > S{n^{4 + }}\)\((v)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} > P{b^{4 + }}\)     \((vi)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} < P{b^{4 + }}\)

189991 Which acid is not an arrhenius acid

189992 \({H_3}B{O_3}\,\xrightarrow{{{T_1}}}X\,\xrightarrow{{{T_2}}}Y\,\xrightarrow{{\operatorname{Re} d\,\,\,hot}}{B_2}{O_3}\)if \(T_1 < T_2\) then \(X\) and \(Y\) respectively are

189988 Choose the correct order of \(C - C\) bond length in the given compounds

189989 In which of the following silicates, only two comers per tetrahedron are shared ?\((i)\) Pyro silicate\((ii)\) Cyclic silicate\((iii)\) Double chain silicate\((iv)\) Single chain silicate\((v)\) \(3D\) silicate\((vi)\) Sheet silicate

189990 The correct code for stability of oxidation states for given cations is\((i)\) \(P{b^{2 + }} > P{b^{4 + }},T{l^ + } < T{l^{3 + }}\)         \((ii)\) \(Bi^{3+} < Sb^{3+} , Sn^{2+} < sn^{4+}\)\((iii)\) \(P{b^{2 + }} > P{b^{4 + }},B{i^{3 + }} > B{i^{5 + }}\)     \((iv)\) \(T{l^{3 + }} < I{n^{3 + }},S{n^{2 + }} > S{n^{4 + }}\)\((v)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} > P{b^{4 + }}\)     \((vi)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} < P{b^{4 + }}\)

189991 Which acid is not an arrhenius acid

189992 \({H_3}B{O_3}\,\xrightarrow{{{T_1}}}X\,\xrightarrow{{{T_2}}}Y\,\xrightarrow{{\operatorname{Re} d\,\,\,hot}}{B_2}{O_3}\)if \(T_1 < T_2\) then \(X\) and \(Y\) respectively are

189988 Choose the correct order of \(C - C\) bond length in the given compounds

189989 In which of the following silicates, only two comers per tetrahedron are shared ?\((i)\) Pyro silicate\((ii)\) Cyclic silicate\((iii)\) Double chain silicate\((iv)\) Single chain silicate\((v)\) \(3D\) silicate\((vi)\) Sheet silicate

189990 The correct code for stability of oxidation states for given cations is\((i)\) \(P{b^{2 + }} > P{b^{4 + }},T{l^ + } < T{l^{3 + }}\)         \((ii)\) \(Bi^{3+} < Sb^{3+} , Sn^{2+} < sn^{4+}\)\((iii)\) \(P{b^{2 + }} > P{b^{4 + }},B{i^{3 + }} > B{i^{5 + }}\)     \((iv)\) \(T{l^{3 + }} < I{n^{3 + }},S{n^{2 + }} > S{n^{4 + }}\)\((v)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} > P{b^{4 + }}\)     \((vi)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} < P{b^{4 + }}\)

189991 Which acid is not an arrhenius acid

189992 \({H_3}B{O_3}\,\xrightarrow{{{T_1}}}X\,\xrightarrow{{{T_2}}}Y\,\xrightarrow{{\operatorname{Re} d\,\,\,hot}}{B_2}{O_3}\)if \(T_1 < T_2\) then \(X\) and \(Y\) respectively are

189988 Choose the correct order of \(C - C\) bond length in the given compounds

189989 In which of the following silicates, only two comers per tetrahedron are shared ?\((i)\) Pyro silicate\((ii)\) Cyclic silicate\((iii)\) Double chain silicate\((iv)\) Single chain silicate\((v)\) \(3D\) silicate\((vi)\) Sheet silicate

189990 The correct code for stability of oxidation states for given cations is\((i)\) \(P{b^{2 + }} > P{b^{4 + }},T{l^ + } < T{l^{3 + }}\)         \((ii)\) \(Bi^{3+} < Sb^{3+} , Sn^{2+} < sn^{4+}\)\((iii)\) \(P{b^{2 + }} > P{b^{4 + }},B{i^{3 + }} > B{i^{5 + }}\)     \((iv)\) \(T{l^{3 + }} < I{n^{3 + }},S{n^{2 + }} > S{n^{4 + }}\)\((v)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} > P{b^{4 + }}\)     \((vi)\) \(S{n^{2 + }} < P{b^{2 + }},S{n^{4 + }} < P{b^{4 + }}\)

189991 Which acid is not an arrhenius acid

189992 \({H_3}B{O_3}\,\xrightarrow{{{T_1}}}X\,\xrightarrow{{{T_2}}}Y\,\xrightarrow{{\operatorname{Re} d\,\,\,hot}}{B_2}{O_3}\)if \(T_1 < T_2\) then \(X\) and \(Y\) respectively are