Variation of Conductivity and Molar Conductivity with concentration
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CHXII03:ELECTROCHEMISTRY

330466 Which of the following electrolytic solutions has the least specific conductance?

1 2 N
2 0.002 N
3 0.02 N
4 0.2 N
CHXII03:ELECTROCHEMISTRY

330471 The equivalent conductance of NaCl at concentration C and at infinite dilution are \({{\rm{\lambda }}_{\rm{c}}}\,\,{\rm{and}}\,\,{{\rm{\lambda }}_{\rm{o}}}\) is given as

1 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ - (B)}}\sqrt {\rm{C}} \)
2 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ + (B)}}\sqrt {\rm{C}} \)
3 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ + (B)C}}\)
4 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ - (B)C}}\)
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CHXII03:ELECTROCHEMISTRY

330466 Which of the following electrolytic solutions has the least specific conductance?

1 2 N
2 0.002 N
3 0.02 N
4 0.2 N
CHXII03:ELECTROCHEMISTRY

330471 The equivalent conductance of NaCl at concentration C and at infinite dilution are \({{\rm{\lambda }}_{\rm{c}}}\,\,{\rm{and}}\,\,{{\rm{\lambda }}_{\rm{o}}}\) is given as

1 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ - (B)}}\sqrt {\rm{C}} \)
2 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ + (B)}}\sqrt {\rm{C}} \)
3 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ + (B)C}}\)
4 \({{\rm{\lambda }}_{\rm{c}}}{\rm{ = }}{{\rm{\lambda }}_{\rm{o}}}{\rm{ - (B)C}}\)
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