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Test: Electrochemical Series - NEET MCQ


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20 Questions MCQ Test - Test: Electrochemical Series

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Test: Electrochemical Series - Question 1

Only One Option Correct Type

This section contains multiple choice questions. Each question has four choices (a), (b), (c) and (d), out of which ONLY ONE is correct.

Q.

Cl2 gas is passed into a solution containing KF, Kl and KBr, and CHCI3 is added. There is a colour in CHCI3 (lower) layer. It is due to 

Detailed Solution for Test: Electrochemical Series - Question 1

Based on electro chemical series, oxidising power of
F2 > Cl2 > Br2 > I2

On passing Cl2 in to a solution containing KF, Kl and KBr,
2KBr + Cl2 → 2KCI + Br2 (orange)
2KI + Cl→ 2KCI + l2 (violet)
2KI + Br2 → 2KBr + l2 (violet)
Br2 formed also oxidises Kl to l2 (violet)

Test: Electrochemical Series - Question 2

Select the correct statement(s) about galvanic cell (Daniell cell) with E° cell​ = 1.10 V

Detailed Solution for Test: Electrochemical Series - Question 2

E° cell = 1.10 V
(a) Hence , when Eext < 1.10 V, reaction continues till the Eext reaches 1.10 V and
Zn(s) + Cu2+(aq) → Cu(s) + Zn2+(aq)
thus , zinc dissolves at anode and Cu deposits at cathode.
(b) When Eext = 1.10 V , no reaction.
(c) When Eext > 1.10V, reverse reaction takes place,

It now acts as electrolytic cell.
Zinc deposits at zinc plate which is now the cathode (+ ve plate) and Cu dissolves as Cu2+ at copper plate which is now the anode (- ve plate)

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Test: Electrochemical Series - Question 3

Given, 

Ag+/Ag = 0.80 V
Mg2+/Mg = -2.37 V
Cu2+/Cu = + 0.34V 
Hg2+/Hg = 0.79V

Q.

Which of the following statement(s) is/are correct?

Detailed Solution for Test: Electrochemical Series - Question 3

Based on electro chemical series, reactivity series is

(a) 2Ag+ + Cu → Cu2+ 2Ag
Cu is a better reducing agent than Ag hence Ag+ is reduced by Cu. Thus AgNO3 can not be stored in copper vessel.
(b) Cu2+ + Mg → Mg2+ + Cu
Mg will reduce Cu2+ to Cu thus can not be stored.
(c) Cu2+ + 2Ag → Cu + 2 Ag+
Cu is better reducing agent hence CuCI2 can be stored in silver vessel.
(d) Hg2+ + Cu → Cu2+ + Hg
Cu is better reducing agent. Hence, HgCI2 can not be stored in copper vessel. 

Test: Electrochemical Series - Question 4

One mole of Ag2CO3 is strongly heated in an open vessel. Residue wll be 

Detailed Solution for Test: Electrochemical Series - Question 4

Oxides of the metals are decomposed to metals if in electro chemical series , Eored > 0 .7 9 V

For A g, E°Ag+/Ag = 0.80 V hence Ag2O is decomposed to metals. Products are Ag , CO2 and O2. Since reaction takes place in an open vessel, CO2 and O2 escape from mixture, residue being 2 moles of silver.

Test: Electrochemical Series - Question 5

Zinc ,silver and iron plates are dipped in CuSO4 solutions placed in different vessels as shown:

 

Blue colour of CuSO4 fades in  

Detailed Solution for Test: Electrochemical Series - Question 5

Blue colour fades or changes to colourless if Cu2+ is reduced to Cu.

In electrochemical series (ECS), reactivity order is Zn, Fe, Cu, Ag

Thus, Zn and Fe reduce Cu2+ to Cu but Ag does not reduce Cu2+. Thus, in I and III, CuSO4 changes to colourless or fades by zinc and iron plates.

Test: Electrochemical Series - Question 6

For the following half -cell reactions ,E° values are:

Mn2+(aq) + 2H2O(l)  MnO2(s) + 4H+(aq) + 2e-, E0 = -1.23V

MnO-4 (aq) + 4H+(aq) +3e-  MnO2(s) + 2H2O(l), E0 = +1.70 V

 Thus  

Detailed Solution for Test: Electrochemical Series - Question 6

3Mn2+(aq) + 2MnO4-(aq)+ 2H2O (/) → 5MnO2(s) + 4H+  E°cell = 0.47 V
Since E°cell > 0, hence spontaneous.
Thus, Mn2+ is oxidised to MnO2 by MnO4- in acidic medium.

Test: Electrochemical Series - Question 7

Which of the following statement is correct?

Detailed Solution for Test: Electrochemical Series - Question 7

cell  remains unchanged on division , thus intensive property.

ΔrG is dependent on the division , thus extensive property.

Test: Electrochemical Series - Question 8

 
Then

Detailed Solution for Test: Electrochemical Series - Question 8


Since E° cell < 0, disproportionation of Sn2+ to Sn4+ (by oxidation) and Sn (by reduction) is not spontaneous.

Test: Electrochemical Series - Question 9

Consider some facts about Standard Hydrogen Electrode(SHE).

I. It is assigned a zero potential at all temperature corresponding to the reaction.

II. Platinum electrode coated with platinum black is dipped in acidic solution and H2 gas is bubbled through it.
III. Concentration of both are oxidised and reduced forms of hydrogen is maintained at unity.

 Select the correct facts

Detailed Solution for Test: Electrochemical Series - Question 9


It is oxidation half-cell

H2 (reduced part) is at 1 bar. H+ (oxidised part) is at 1 M. 

It is reduction half-cell

In this case also, oxidised and reduced parts are at unity.

Then (I), (II) and (III) are correct facts.

Test: Electrochemical Series - Question 10

The gas X at 1 atm is bubbled through a solution containing a mixture of 1 M Y- and 1 M Z- at 298 K.If the standard reduction potential

then,

Detailed Solution for Test: Electrochemical Series - Question 10


In ECS, pair with more negative values of E°red reducing agent is above oxidising agent.
Thus, Z/Z- is the best reducing agent

Thus, Z- will reduce both X and Y and itself will be oxidised to Z .

Test: Electrochemical Series - Question 11

The standard reduction potential values of three metallic cations X, Y, Z are 0.52, -3.03 and -1.18 V respectively. The order of reducing power of the corresponding metals is

Detailed Solution for Test: Electrochemical Series - Question 11

x = - 0.52 V
y = -3.03 V
z = - 1.18 V

Their placements in ECS is in order Y > Z > X.
Thus, reducing nature is also in same order y > Z > X

Test: Electrochemical Series - Question 12

A solution containing one mole per litre each of Cu(NO3)2 ,AgNO3 ,Hg2(NO3)2 and Mg(NO3)is being electrolysed using inert electrodes. The value of standard redution potentials are

 

with increasing voltage , the sequence of deposition of metals on the cathode will be

Detailed Solution for Test: Electrochemical Series - Question 12

These metals based on E°red values are placed in the following order:


Mg will reduce and Ag+ to metals Cu, Hg, Ag.
Cu will reduce and Ag+ to Hg, Ag, Hg will reduce Ag+ to Ag.
Ag+ is reduced by all metals thus Ag first. Hg2+ is reduced by Cu, Mg thus Hg. Cu2+ is reduced by Mg only, thus Cu.
Thus, deposition : 

Test: Electrochemical Series - Question 13

The standard reduction potentials at 298K for the following half-cell are given

Which is the strongest reducing agent?

Detailed Solution for Test: Electrochemical Series - Question 13

In electrochemical series (ECS), elements have been arranged in the increasing standard reduction potential starting from most negative to most positive value w.r.t. SHE (E°she= 0.00 V).

Most negative standard reduction potential means most easily oxidised and thus is the best reducing agent.

OR Reducing agent in (ECS) is always above oxidising agent. Thus, Zn(s) is the best reducing agent in given set.

Test: Electrochemical Series - Question 14

The Eo M3+/M2+ values for Cr, Mn, Fe and Co are - 0.41 V, +1,57 V, + 0.77 V and m /m 1.97 V respectively. For which one of these metals the change in oxidation state from +2 to +3 is easiest?

Detailed Solution for Test: Electrochemical Series - Question 14


Mn3+ + e- → Mn2+ + 1.57 V
Fe3+ + e- → Fe2+ + 0.77 V
Co3+ + e- → Co2+ + 1.97 

Cr3+/Cr2+ with most negative E°red is the best reducing agent.
Cr2+→ Cr3+ + e- , E° = 0.41 V
Thus, is oxidised from Cr2+ to Cr3+ most easily.

Test: Electrochemical Series - Question 15

Given the standard electrode potentials  

I. K+/K = -2.93V,
II. Ag+/Ag = 0.80V,
III. Hg2+/Hg = 0.79 V 
IV. Mg2+/Mg = -2.37V,
V. Cr3+/Cr = - 0.74 V

These metals are arranged in increasing reducing power as

Detailed Solution for Test: Electrochemical Series - Question 15

Most negative E°red means the Mn+/M is at the top of ECS and is the best reducing agent.

Test: Electrochemical Series - Question 16

Statement Type

Direction : This section is based on Statement I and Statement II. Select the correct answer from the codes given below.

Statement I : CuSO4 can be stored in a vessel made of zinc.

Statement II :  w.r.t SHE   

Detailed Solution for Test: Electrochemical Series - Question 16

Zn2+/Zn = -0.76 V
Cu2+/Cu = + 0.34 V

In electrochemical series, zinc is above copper and thus zinc is a better reducing agent than copper. When CuS04 is placed in zinc vessel, copper is displaced

Thus, CuSO4 cannot be stored in a vessel made of zinc.
Thus, statement I is incorrect and statement II is correct.

Test: Electrochemical Series - Question 17

Statement I​ : When AgNO3 solution is stirred with a spoon made of copper,solution turns blue.

Statement II : In electrochemical series ,copper is above silver

Detailed Solution for Test: Electrochemical Series - Question 17

*Multiple options can be correct
Test: Electrochemical Series - Question 18

The positive value of the standard electrode potential of Cu2+/Cu,

(E°Cu2+/Cu = 0.34 V) indicates that

Detailed Solution for Test: Electrochemical Series - Question 18


cell > 0 thus spontaneous
Cu2+/Cu couple is thus a stronger oxidising agent. Reverse reaction is non-spontaneous.
Cu + 2H+ → Cu2+ + H2, E°cell = - 0.34 V
Thus, copper cannot displace H2 from acid.

*Multiple options can be correct
Test: Electrochemical Series - Question 19

Consider the following half-reactions:

Select the correct statements on the basis of the above data

Detailed Solution for Test: Electrochemical Series - Question 19



Thus, (c) is correct.
Concentrated H2SO4 ionises as H+ and HSO4- and then water is not oxidised in concentrated H2SO4 Thus, (b) is incorrect.
 is not oxidised to in dilute H2SO4. Thus, (d) is incorrect.
(d) In dilute sulphuric acid solution, ions will be oxidised to tetrathionate ion () at anode.

*Multiple options can be correct
Test: Electrochemical Series - Question 20

Select the correct statement(s) based on the following half-reaction:

Detailed Solution for Test: Electrochemical Series - Question 20

If dil. H2SO4 is used, then H+ is the reacting species.
If cone. H2SO4 is used, then is the reacting species.

Thus, copper does not react with H+ (dil. H2SO4) forming H2.

Since E°cell > 0, Thus copper reacts with cone. H2SO4 forming SO2.
(c) Zn + +4H+ → Zn2+ + SO2 + 2H2O
cell = 1.93 V, E°cell > 0, thus zinc also reacts with conc.
H2SO4 forming SO2.
(d) Zn + 2H+ → Zn2+ + H2, E°cell = 0.76 V
cell > 0, thus zinc reacts with dil. H2SO4 forming H2.

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