Which statement is correct for $\Delta G$ and $E_{cell}$ for a cell reaction?
- A$\Delta G$ is an intensive property and $E_{cell}$ is an extensive property.
- BBoth $\Delta G$ and $E_{cell}$ are intensive properties.
- C$\Delta G$ is an extensive property and $E_{cell}$ is an intensive property.
- DBoth $\Delta G$ and $E_{cell}$ are extensive properties.
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Similar Questions
$A$ cell is constructed by dipping a copper rod in $1\,M\,CuSO_4$ solution and a nickel rod in $1\,M\,NiSO_4$ solution. The standard reduction potentials of copper and nickel electrodes are $+0.34\,V$ and $-0.25\,V$ respectively. Calculate the $EMF$ of the cell. (in $,V$)
Easy
View SolutionThe standard reduction potentials for $Zn^{2+}/Zn$,$Ni^{2+}/Ni$ and $Fe^{2+}/Fe$ are $-0.76 \ V$,$-0.23 \ V$ and $-0.44 \ V$ respectively.
The reaction $X + Y^{2+} \rightarrow X^{2+} + Y$ will be spontaneous when:
The reaction $X + Y^{2+} \rightarrow X^{2+} + Y$ will be spontaneous when:
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View SolutionAmong the following metals,the strongest reducing agent is
DifficultKVPY 2017
View SolutionWhat is the $e.m.f.$ of the cell in $V$?
$Cr | Cr^{3+} (1.0 \ M) || Co^{2+} (1.0 \ M) | Co$
Given: $E^{o}$ for $Cr^{3+} | Cr = -0.74 \ V$ and $Co^{2+} | Co = -0.28 \ V$
$Cr | Cr^{3+} (1.0 \ M) || Co^{2+} (1.0 \ M) | Co$
Given: $E^{o}$ for $Cr^{3+} | Cr = -0.74 \ V$ and $Co^{2+} | Co = -0.28 \ V$
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View SolutionWhich is the increasing order of reducing power of the following metals on the basis of standard electrode potential? $Ag^{+}/Ag = 0.80 \ V$,$Mg^{2+}/Mg = -2.37 \ V$,$Hg^{2+}/Hg = 0.79 \ V$,$Cr^{3+}/Cr = -0.74 \ V$
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