STATEMENT-1: `E_(cell)^(@)`=0` for a chloride ion concentration cell. STATEMENT-2: For this concentration cell where `E_(cell)=(RT)/(nF)In([Cl^-]_(LHS)/([Cl^-]_(RHS)`
A
If both the statements are TRUE and STATEMENTS-2 is the correct explantion of STATEMENTS-10
B
If both the statements are TRUE but STATEMENTS-2 is NOT the correct explanation of STATEMENTS-12
C
If STATEMENTS-1 is TRUE and STATEMENTS-2 is FALSE
D
If STATEMENT-1 is FALSE and STATEMENT-2 is TRUE
Text Solution
Verified by Experts
The correct Answer is:
B
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Statement-1: E_(cell)^(0)=0 for a chloride ion concentration cell. Statement-2 : For this concentration cell where E_(cell)=(RT)/(nF)ln([Cl^(-)]_(LHS))/([Cl^(-)]_(RHS))
The questions consist of two atatements each, printed as Assertion and Reason. While answering these questions you are required to choose any one of the following four responses : E_("cell")^@ =0 for a chloride ion concentration cell . For this concentration cell where E_("cell") = ("RT")/("nF") In ([Cl^-]_(LHS))/([Cl^-]_(RHS)) .
STATEMENT -1: E_(cell)^(@) is negative for electrolytic cell. STATEMENT-2: /_\G^(@) is +ve for electrolyte cell
Write the cell reaction if the Nernst equation is given by the relation E_(cell)=E_(cell)^(@)-(RT)/(2F)"In"([Pb^(2+)])/([H^(+)]^(2)) .
Assertion A :Increase in the concentration of copper half cell in Daniel cell increases the emf of the cell. Reason R: According to Nernst equation. E_(cell)=E_(cell)^(0)+(0.059)/(2)log.([Cu^(++)])/([Zn^(++)])
In which of the following cell(s): E_("cell")=E_("cell")^(@) ?
In which of the following (E_("cell")-E_("cell")^(@))=0
Absorption of diffusible ions by cells concentration gradient is called :
