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Q. No.Two half cell reactions are given below:
\(\begin{aligned} &\mathrm{{Co}^{3+}+e^{-} \rightarrow {Co}^{2+}, {E}_{{Co}^{2+} / {Co}^{3+}}^{\circ}=-1.81 {~V}} \\ &2 \mathrm{{Al}^{3+}+6 e^{-} \rightarrow 2 {Al}({s}), {E}_{{Al} / {Al}^{3+}}^{\circ}=+1.66 {~V}} \end{aligned} \)
The standard EMF of a cell with feasible redox reaction will be:
1.
+7.09 V
2.
+0.15 V
3.
+3.47 V
4.
–3.47 V
\(\begin{aligned} &\mathrm{{Co}^{3+}+e^{-} \rightarrow {Co}^{2+}, {E}_{{Co}^{2+} / {Co}^{3+}}^{\circ}=-1.81 {~V}} \\ &2 \mathrm{{Al}^{3+}+6 e^{-} \rightarrow 2 {Al}({s}), {E}_{{Al} / {Al}^{3+}}^{\circ}=+1.66 {~V}} \end{aligned} \)
The standard EMF of a cell with feasible redox reaction will be:
Subtopic: Electrode & Electrode Potential |
69%
Level 2: 60%+
NEET - 2022
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Standard electrode potential for the cell with cell reaction
Zn(s) + Cu2+(aq) → Zn2+(aq) + Cu(s)
is 1.1 V. Calculate the standard Gibbs energy change for the cell reaction. (Given F = 96487 C mol–1)
Zn(s) + Cu2+(aq) → Zn2+(aq) + Cu(s)
is 1.1 V. Calculate the standard Gibbs energy change for the cell reaction. (Given F = 96487 C mol–1)
| 1. | –200.27 kJ mol–1 | 2. | –212.27 kJ mol–1 |
| 3. | –212.27 J mol–1 | 4. | –200.27 J mol–1 |
Subtopic: Relation between Emf, G, Kc & pH |
82%
Level 1: 80%+
NEET - 2022
Hints
For a conductivity cell containing 10–3 M KCl solution at 298 K, the resistance is 1500 ohm and the conductivity is 0.15×10–3 S cm–1. The cell constant of the cell is:
1. 10.0 cm–1
2. 0.10 cm–1
3. 0.115 cm–1
4. 0.225 cm–1
1. 10.0 cm–1
2. 0.10 cm–1
3. 0.115 cm–1
4. 0.225 cm–1
Subtopic: Conductance & Conductivity |
90%
Level 1: 80%+
Hints
Select the incorrect statement regarding mercury cell:
| 1. | It consists of zinc-mercury amalgam as anode. |
| 2. | It consists of a paste of NH4Cl and ZnCl2 as electrolyte. |
| 3. | It consists of paste of HgO and carbon as cathode. |
| 4. | It is suitable for low current devices like hearing aids, watches etc. |
Subtopic: Batteries & Salt Bridge |
71%
Level 2: 60%+
Hints
Incorrect statement among the following is:
| 1. | When no current is drawn through the cell, the cell potential is called emf of the cell. |
| 2. | Corrosion of metals is an electrochemical phenomenon. |
| 3. | Specific conductivity of an electrolytic solution is independent of the concentration of electrolyte. |
| 4. | In the standard state, the potential of the H-electrode is taken as zero volt. |
Subtopic: Electrolytic & Electrochemical Cell |
72%
Level 2: 60%+
Hints
\(\land^o_m\) for NaCl, HCl and \(\mathrm{CH_3COONa }\) are 126.4, 425.9, and 91.05 S cm2 mol–1 respectively. If the conductivity of 0.001028 mol L–1 acetic acid solution is \(4.95 \times 10^{-5} S ~cm^{-1} \), the degree of dissociation of the acetic acid solution is:
1. 0.01233
2. 1.00
3. 0.1233
4. 1.233
Subtopic: Conductance & Conductivity |
59%
Level 3: 35%-60%
NEET - 2022
Hints
Resistance of a decimolar solution between two electrodes 0.02 meter apart and 0.004 m2 in the area was found to be 50 ohms. Specific conductance (\(\)k) is :
1. \(0.1 Sm^{-1}\)
2. \(1 Sm^{-1}\)
3. \(10~ S~m^{-1}\)
4. \(4 \times 10^{-4} S~m^{-1}\)
1. \(0.1 Sm^{-1}\)
2. \(1 Sm^{-1}\)
3. \(10~ S~m^{-1}\)
4. \(4 \times 10^{-4} S~m^{-1}\)
Subtopic: Conductance & Conductivity |
81%
Level 1: 80%+
Hints
The correct statement regarding dry cells among the following is:
| a. | It is also known as the Leclanche cell. |
| b. | The electrolyte is a moist paste of ammonium chloride (NH4Cl) and zinc chloride (ZnCl2). |
| c. | The cathodic reaction is : MnO2 + NH4++ e-→ MnO(OH) + NH3 |
| 1. | Only a and b are correct | 2. | Only c is correct |
| 3. | Only b and c are correct | 4. | All are correct |
Subtopic: Batteries & Salt Bridge |
76%
Level 2: 60%+
Hints
How many Faradays are required to deposit 127 grams of copper from a copper sulfate solution?
(Atomic weight of copper = 63.5)
1. 1 F
2. 2 F
3. 3 F
4. 4 F
(Atomic weight of copper = 63.5)
1. 1 F
2. 2 F
3. 3 F
4. 4 F
Subtopic: Faraday’s Law of Electrolysis |
66%
Level 2: 60%+
Hints
Kohlrausch gives the following relation for strong electrolytes:
\(\wedge=\wedge_{0}-A \sqrt{C}\)
Which of the following equality holds?
\(\text { 1. } \Lambda=\Lambda_{0} \text { as } C \longrightarrow \sqrt{\Lambda}\)
\(\text { 2. } \Lambda=\Lambda_{0} \text { as } C \longrightarrow \infty\)
\(\text { 3. } \Lambda=\Lambda_{0} \text { as } \mathrm{C} \longrightarrow 0\)
\(\text { 4. } \Lambda=\Lambda_{0} \text { as } C \longrightarrow 1\)
\(\wedge=\wedge_{0}-A \sqrt{C}\)
Which of the following equality holds?
\(\text { 1. } \Lambda=\Lambda_{0} \text { as } C \longrightarrow \sqrt{\Lambda}\)
\(\text { 2. } \Lambda=\Lambda_{0} \text { as } C \longrightarrow \infty\)
\(\text { 3. } \Lambda=\Lambda_{0} \text { as } \mathrm{C} \longrightarrow 0\)
\(\text { 4. } \Lambda=\Lambda_{0} \text { as } C \longrightarrow 1\)
Subtopic: Conductance & Conductivity | Kohlrausch Law & Cell Constant |
69%
Level 2: 60%+
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