Exams
Subjects
Classes
Home
Chemistry
List of top Chemistry Questions on Nernst Equation
Calculate the electrode potential of a half-cell for zinc electrode dipping in \(0.01\,M\) \(ZnSO_4\) solution at \(25^\circ C\). \[ \text{Given : } E^\circ_{Zn^{2+}/Zn}=-0.76\,V \] \[ \log 10 = 1 \]
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
Calculate emf of the following cell at \(298\,K\) : \[ Cr(s)\,|\,Cr^{3+}(aq,\;0.1\,M)\,||\,Fe^{2+}(aq,\;0.01\,M)\,|\,Fe(s) \]
(Given :
\[ E^\circ_{Cr^{3+}/Cr}=-0.74\,V, \] \[ E^\circ_{Fe^{2+}/Fe}=-0.44\,V, \] \[ \log 10 = 1 \]
)
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
Answer the following: \[ (a)(i)\;\text{Calculate the electrode potential of a half-cell for zinc electrode dipping in }0.01M\;ZnSO_4\text{ solution at }25^\circ C. \] \[ E^\circ_{Zn^{2+}/Zn}=-0.76V,\quad \log 10=1 \] \[ (a)(ii)\;\text{Write anode, cathode and overall reaction involved in dry cell.} \] \[ (a)(iii)\;\text{Equilibrium constant }(K_c)\text{ is related to }E^\circ_{\text{cell}},\text{ but not to }E_{\text{cell}}.\text{ Why?} \]
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
Calculate emf and ΔG for the following cell at 298 K:
Mg(s) | Mg
2+
(0.01 M) || Ag
+
(0.001 M) | Ag(s)
Given: E°
Mg
2+
/Mg
= -2.37 V, E°
Ag
+
/Ag
= +0.80 V. [1 F = 96500 C mol
-1
, log 10 = 1]
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
For the reaction:
2 AgCl(s) + H
2
(g) (0.4 atm) → 2 Ag(s) + 2 H
+
(0.1 M) + 2 Cl
-
(0.2 M)
Calculate the emf of the cell at 25 °C.
Given: ΔG° = -43500 J mol
-1
. [log 10 = 1, 1 F = 96500 C mol
-1
]
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
Answer the following:
(i) Why is the Equilibrium Constant \(K_c\) related to \(E^\circ_{cell}\) and not to \(E_{cell}\)?
(ii) Two metals 'A' and 'B' have standard electrode potential values of \(-0.24\) V and \(+0.80\) V respectively. Which of these will liberate hydrogen gas from dil. \(H_2SO_4\)?
(iii) Write the cell reaction which occurs in lead storage battery when it is in charging.
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
Equilibrium constant $\mathrm{(K_c)}$ is related to $\mathrm{E^\circ_{cell}}$, but not to $\mathrm{E_{cell}}$. Why ?
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
Calculate the electrode potential of a half-cell for a zinc electrode dipping in 0·01 M $\mathrm{ZnSO_4}$ solution at 25°C. [Given : $\mathrm{E^\circ_{Zn^{2+}/Zn} = -0.76\,V}$, log 10 = 1]
CBSE Class XII - 2026
CBSE Class XII
Chemistry
Nernst Equation
The following reaction takes place in a cell at 298 K: $2M^{3+}(aq) + 2I^{-}(aq) \rightarrow 2M^{2+}(aq) + I_2(s)$. What is the value of $\log K_c$ for this reaction? (Given: $E_{cell}^\circ = 0.235 V, F = 96500 C mol^{-1}, R = 8.3 J mol^{-1} K^{-1}$)
AP EAPCET - 2026
AP EAPCET
Chemistry
Nernst Equation
The emf values of three galvanic cells I, II and III are \(E_1\), \(E_2\) and \(E_3\) respectively. Determine the correct order among them. \[ \text{(I)}\quad Zn|Zn^{2+}(1M)||Cu^{2+}(0.1M)|Cu \] \[ \text{(II)}\quad Zn|Zn^{2+}(1M)||Cu^{2+}(1M)|Cu \] \[ \text{(III)}\quad Zn|Zn^{2+}(0.1M)||Cu^{2+}(1M)|Cu \]
AP EAPCET - 2026
AP EAPCET
Chemistry
Nernst Equation
If \( E^\circ (Ag^+ | Ag) = +0.80 \, V \), What is the potential developed for \( Ag (s) \rightarrow Ag^+ (0.01M) + e^- \) at 298 K?
MHT CET - 2025
MHT CET
Chemistry
Nernst Equation
For $Zn(s)+Cu^{2+}(0.1M) \rightarrow Zn^{2+}(0.001 M)+Cu(s)$, calculate $E_{cell}$ if $E^0_{cell} = 1.1V$. ________.
KEAM - 2025
KEAM
Chemistry
Nernst Equation
For the cell reaction, $A_{(s)}+B_{(aq)}^{2+}\rightarrow A_{(aq)}^{2+}+B_{(s)}$ if equilibrium constant of reaction is $10^{4}$ at 298 K. What is standard emf of cell?
MHT CET - 2025
MHT CET
Chemistry
Nernst Equation
If $E^{\circ}(\text{Cu}^{2+}/\text{Cu})=+0.34\text{ V}$. What is potential for $\text{Cu}(s)\rightarrow \text{Cu}^{2+}(aq)(0.1\text{M})+2e^{-}$ at 298 K?
MHT CET - 2025
MHT CET
Chemistry
Nernst Equation
What happens to the emf for the cell, $Zn|Zn_{(aq)}^{2+}||Ag_{(aq)}^{+}|Ag_{(s)}$ if concentration of $Ag^{+}$ decreases to 0.1 M?
MHT CET - 2025
MHT CET
Chemistry
Nernst Equation
What is reduction potential of hydrogen gas electrode when pure hydrogen gas is at 1 atmospheric pressure and platinum electrode is in contact with HCl solution of pH 1 at 298 K?
MHT CET - 2025
MHT CET
Chemistry
Nernst Equation
The resistance of a conductivity cell containing 0.001 M KCl solution at 298 K is 1000 ohm. What is the cell constant if conductivity of 0.001 M KCl solution at 298 K is 0.125 × 10−3 S cm−1?
CBSE Class XII - 2025
CBSE Class XII
Chemistry
Nernst Equation
Which of the following polymers is formed due to the co-polymerization of \( 1,3 \)-butadiene and phenylethene?
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
Which one of the carbanions is the least stable?
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
Which of the following arrangements does not represent the correct order of the property stated against it?
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
Tincture of iodine is the common name for:
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
In Williamson synthesis, if tertiary alkyl halide is used, then:
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
The cell potential for the following cell notation is approximately:
\( \text{M(s)}|\text{M}^{3+}(aq, 0.1M)||\text{N}^{2+}(aq, 0.1M)|\text{N(s)} \) \[ E^\circ_{\text{M}^{3+}/\text{M}} = 0.6 \, \text{V}, \quad E^\circ_{\text{N}^{2+}/\text{N}} = 0.1 \, \text{V}. \]
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
The monomers of Buna-S rubber are:
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
Which of the following is the life-saving mixture for an asthma patient?
MHT CET - 2024
MHT CET
Chemistry
Nernst Equation
<
1
2
3
>