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Electrochemistry

Multiple Choice Questions

251.

Using the Gibbs energy change, ΔG⁰ = +63.3 KJ for the following reaction,
Ag₂CO₃ (s) r2Ag⁺ (aq) + CO₃^2- (aq)
the Ksp of Ag₂CO₃ (s) in water at 25⁰ C is (R= 8.314 JK^-1 mol^-1)

3.2 x 10^-26
8.0 x 10^-12
2.9 x 10^-3
2.9 x 10^-3

2251 Views

252.

At 25⁰ molar conductance of 0.1 molar aqueous solutions of ammonium hydroxide is 9.54 ohm^-1 cm² mol^-1 and at infinite dilution, its molar conductance is 238 ohm^-1 cm² mol^-1. The degree of ionisation of ammonium hydroxide at the same concentration and temperature is

2.080%
20.800%
4.008%
4.008%

2130 Views

253.

A button cell used in watches functions as following
$Zn space left parenthesis straight s right parenthesis space plus Ag subscript 2 straight O space left parenthesis straight s right parenthesis space plus straight H subscript 2 straight O space left parenthesis straight l right parenthesis space rightwards harpoon over leftwards harpoon space 2 space Ag space left parenthesis straight s right parenthesis space plus Zn to the power of 2 plus end exponent space left parenthesis aq right parenthesis space plus 2 OH to the power of minus space left parenthesis aq right parenthesis If space half minus cell space potentials space are Zn to the power of 2 plus end exponent space left parenthesis aq right parenthesis space plus 2 straight e to the power of minus space rightwards arrow space Zn left parenthesis straight s right parenthesis semicolon space straight E to the power of 0 equals space minus 0.76 space straight V Ag subscript 2 straight O space left parenthesis straight s right parenthesis space plus straight H subscript 2 straight O space left parenthesis straight l right parenthesis space plus 2 straight e to the power of minus rightwards arrow 2 Ag space left parenthesis straight s right parenthesis space plus 2 OH to the power of minus space left parenthesis aq right parenthesis space left parenthesis straight E to the power of 0 space equals space 0.34 space straight V right parenthesis$
The cell potential will be

1.10 V
0.42 V
0.84 V
0.84 V

1471 Views

254.

Limiting molar conductivity of NH₄OH (i.e., $straight capital lambda with straight o on top subscript m left parenthesis N H subscript 4 O H right parenthesis space end subscript$ is equal to

$straight capital lambda with straight o on top subscript m space left parenthesis N H subscript 4 C l right parenthesis space end subscript space plus straight capital lambda with straight o on top subscript m space left parenthesis N a C l right parenthesis space end subscript minus space straight capital lambda with straight o on top subscript m space left parenthesis N a O H l right parenthesis space end subscript$
$straight capital lambda with straight o on top subscript m space left parenthesis N a O H right parenthesis space end subscript space plus straight capital lambda with straight o on top subscript m space left parenthesis N a C l right parenthesis space end subscript minus space straight capital lambda with straight o on top subscript m space left parenthesis N H subscript italic 4 C l right parenthesis space end subscript$
$straight capital lambda with straight o on top subscript m space left parenthesis N H subscript 4 O H right parenthesis space end subscript space plus straight capital lambda with straight o on top subscript m space left parenthesis N H subscript italic 4 C l right parenthesis space end subscript minus space straight capital lambda with straight o on top subscript m space left parenthesis HCl right parenthesis space end subscript$
$straight capital lambda with straight o on top subscript m space left parenthesis N H subscript 4 O H right parenthesis space end subscript space plus straight capital lambda with straight o on top subscript m space left parenthesis N H subscript italic 4 C l right parenthesis space end subscript minus space straight capital lambda with straight o on top subscript m space left parenthesis HCl right parenthesis space end subscript$

725 Views

255.
Standard reduction potentials of the half-reactions are given below.

F₂ (g) +2e^- → 2F^- (aq) ; E^o = +2.85 V
Cl₂ (g) +2e^- →2Cl^- (aq) ; E^o = +1.36V
Br₂ (l) +2e^- → 2Br^-(aq) ; E^o = +1.06 V
I₂ (s) +2e^- →2I^- (aq); E^o = +0.53 V

The strongest oxidising and reducing agents respectively are

F₂ and I^-

Br₂ and Cl^-

Cl₂ and Br^-

Cl₂ and Br^-

F₂ and I^-

Higher the value of standard reduction potential, stronger will be the oxidising agent. Therefore, F₂ will act as stronger oxidising agent.
Similarly, lower the value of standard reduction potential stronger will be the reducing agent. Therefore, I^- will act as strongest reducing agent.

666 Views

256.

Molar conductivities (Λ^o_m) at infinite dilution of NaCl, HCl and CH₃COONa are 126.4, 425.9 and 91.0 S Cm² mol^-1 respectively. Λ^o_m for CH₃COOH will be

425.5 S cm² mol^-1
180.5 S cm² mol^-1
290.8 S cm² mol^-1
290.8 S cm² mol^-1

1612 Views

257.

The Gibb's energy for the decomposition of Al₂O₃ at 500^o C is as follow
2/3 Al₂O₃→ 4/3 Al + O₂;
Δ_rG = +960 kJ mol^-1
The potential difference needed for the electrolytic reduction aluminium oxide (Al₂O₃) at 500⁰ C is at least

4.5 V
3.0 V
2.5 V
2.5 V

3145 Views

258.

Standard electrode potential of three metal X, Y and Z are -1.2 V, +0.5 V and -3.0 V respectively. The reducing power of these metals will be

Y > X > Z
Z> X> Y
X > Y > Z
X > Y > Z

412 Views

259.

If the E^o_cell for a given reaction has a negative value then which of the following gives the correct relationships for the values of ΔG^o and K_eq ?

ΔG^o < 0; K_eq > 1
ΔG^o < 0; K_eq < 1
ΔG^o > 0; K_eq < 1
ΔG^o > 0; K_eq < 1

1145 Views

260.

The electrode potentials for

Cu²⁺ (aq) + e^- → Cu⁺ (aq) and Cu⁺ (aq) + e^- →Cu (s)

are +0.15 V and +0.50V respectively. The value of $straight E subscript bevelled Cu to the power of 2 plus end exponent over Cu end subscript superscript straight o$ will be

0.325 V
0.650 V
0.150 V
0.150 V

442 Views