MCQ Questions for Class 12 Engineering Chemistry Electrochemistry Quiz 14

The electrolysis of a solution resulted in the formation of $$H_{2}(g)$$ at the cathode and $$O_{2}(g)$$ at the anode. The solution is :

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$$AgCl(aq)$$
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highly concentrated $$H_{2}SO_{4}(aq)$$
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highly concentrated $$HCl$$ solution
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$$CuCl_{2}(aq)$$

An electric current is passed through a copper voltameter and a water voltameter connected in series. If the copper of the copper voltameter now weights 16 mg less, hydrogen liberated at the cathode of the water voltameter measures at STP about:

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$$4.0ml$$
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$$5.6ml$$
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$$6.4ml$$
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$$8.4ml$$

Coulomb is equal to ........

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ampere $$\times$$ second
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ampere $$\times$$ minute
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watt $$\times$$ second
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volt $$\times$$ second

The current strength of $$3.863\ amp$$ was passed through molten calcium oxide for $$41$$ minutes and $$40$$ seconds. The mass of calcium in grams deposited at the cathode is: (Atomic mass of Ca is $$40\ g/mol, 1\ f=96500\ C)$$

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$$4$$
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$$2$$
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$$6$$
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$$8$$
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$$1$$

Consider the half-cell reaction(s)
$${Cu}^{2+}+{e}^{-}\rightarrow {Cu}^{+};{E}^{o}=0.15V$$
$${Cu}^{2+}+2{e}^{-}\rightarrow {Cu};{E}^{o}=0.33V$$
$${E}^{o}$$ for the half-cell reaction: $${Cu}^{+}+{e}^{-}\rightarrow Cu$$ will be:

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$$0.48V$$
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$$0.18V$$
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$$0.31V$$
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$$0.51V$$

Standard electrode potential data are useful for understanding the suitability of an oxidant in a redox titration. Some half-cell reactions and their standard potentials are given below:

$$MnO_{4}^{-}(aq)+8H^{+}(aq)+5e^{-}\rightarrow Mn^{2+}(aq)+4H_{2}O(l);$$ $$E^{\circ}= 1.51V$$
$$Cr_{2}O_{7}^{2-}(aq)+14H^{+}(aq)+6e^{-}\rightarrow 2Cr^{3+}(aq)+7H_{2}O(l);$$ $$E^{\circ}= 1.38V$$
$$Fe^{3+}(aq)+e^{-}\rightarrow Fe^{2+}(aq);$$ $$E^{\circ}= 0.77V$$
$$Cl_{2}(g)+2e^{-}\rightarrow 2Cl^{-}(aq);$$ $$E^{\circ}= 1.40V$$

Identify the only incorrect statement regarding the quantitative estimation of aqueous $$Fe(NO_{3})_{2}$$

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$$MnO_{4}^{-}$$ can be used in aqueous $$HCl$$
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$$Cr_{2}O_{7}^{2-}$$ can be used in aqueous $$HCl$$
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$$MnO_{4}^{-}$$ can be used in aqueous $$H_{2}SO_{4}$$
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$$Cr_{2}O_{7}^{2-}$$ can be used in aqueous $$H_{2}SO_{4}$$

If one mole electrons is passed through the solutions of $$AlCl_{3}, AgNO_{3}$$ and $$MgSO_{4}$$, in what ratio $$Al, Ag$$ and $$Mg$$ will be deposited at the electrodes?

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$$3 : 6 : 2$$
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$$2 : 6 : 3$$
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$$1 : 2 : 3$$
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$$3 : 2 : 1$$

The standard reduction potential of the $$Ag^+|Ag$$ electrode at 298 K is 0.80 V. The solubility product of AgI is $$6.4 \times 10^{-17}$$ at 298 K. (2.303RT/F = 0.06). The potential of $$ I^{-} (0.04 \, M)|AgI|Ag $$ electrode at 198 K is

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$$ -0.088\,V $$
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$$ +0.088\,V $$
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$$ -0.172\,V $$
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$$ +0.172\,V $$

Which of the following statement (s) differentiate between electrochemical cell and electrolytic cell?

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Spontaneous or non-spontaneous nature of the chemical process.
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Chemical reactions occurring at the electrodes.
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Positive and negative nature of anode.
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Dependence on Faraday's law.

Two electrochemical cells are assembled in which the following reactions occur:

$$ V^{2+}+VO^{2+}+2H^{+} \rightarrow 2V^{3+}+H_{2}O\ ;\ E_{cell}^{\circ} = 0.616\ V$$

$$ V^{3+}+Ag^{+}+H_{2}O \rightarrow VO^{2+}+Ag(s)+2H^{+}\ ;\ E_{cell}^{\circ} = 0.439\ V$$

If $$ E_{Ag^{+}|Ag}^{\circ} = 0.799\ V,$$ what is $$ E_{V^{3+}|V^{2+}}^{\circ}?$$

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$$-0.256\ V$$
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$$+0.256\ V$$
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$$+1.854\ V$$
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$$-1.854\ V$$

From the following $$E^{\circ}$$ values for the half-cells:

$$(i)\ D\rightarrow D^{2+}+2e^{-};E^{\circ}=-1.5V$$

$$(ii)\ B^{+}+e^{-}\rightarrow B;E^{\circ}=-0.5V$$

$$(iii)\ A^{3-}\rightarrow A^{2-}+e^{-};E^{\circ}=1.5V$$

$$(iv)\ C^{2+}+e^{-}\rightarrow C^{+};E^{\circ}= +0.5V$$

Which combination of two half-cells would result in a cell with the largest potential?

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$$(i)$$ and $$(iii)$$
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$$(i)$$ and $$(iv)$$
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$$(iii)$$ and $$(iv)$$
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$$(ii)$$ and $$(iv)$$

Statement $$I$$: Electrolysis of $$ CuCl_{2}(aq)$$ gives 1 mole of Cu and 1 mole of $$ Cl_{2}$$ by the passage of suitable charge.
Statement $$II$$: Equal equivalents of Cu and $$ Cl_{2}$$ are formed during the passage of same charge.

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If both statements are CORRECT, and Statement $$II$$ is the CORRECT explanation of Statement $$I$$.
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If both statements are CORRECT, and Statement $$II$$ is NOT the CORRECT explanation of Statement $$I$$.
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If Statement $$I$$ is CORRECT, but Statement $$II$$ is INCORRECT.
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If Statement $$I$$ is INCORRECT,but Statement $$II$$ is CORRECT.

Statement $$I$$: An electrochemical cell can be set up only when the redox reaction is spontaneous.
Statement $$II$$: A reaction is spontaneous if free energy change at constant temperature and pressure is negative.

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If both statements are Correct, and Statement $$II$$ is the Correct explanation of Statement $$I$$.
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If both statements are Correct, and Statement $$II$$ is NOT the Correct explanation of Statement $$I$$.
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If Statement $$I$$ is Correct, but Statement $$II$$ is Incorrect.
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If Statement $$I$$ is Incorrect, but Statement $$II$$ is Correct.

Pick up the false statement(s):

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The net chemical change in a galvanic cell reaction is always a redox reaction.
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In a galvanic cell made of cobalt and cadmium electrodes, the cobalt electrode acts as the anode.
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Standard potential increases with increasing concentration of the electrolyte.
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Calomel electrode is a reference electrode having $$0.00$$ volt potential.

Which of the following solutions have highest resistance?

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1N - NaCl
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0.05 N - NaCl
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2N - NaCl
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0.1 N - NaCl

The graph represent a current-voltage behaviour of water. Choose the correct option:

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Ohm's law is obeyed
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Electrolysis in general do not obey ohm's law
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Dissociation takes place at E, and it obeys Ohm's law thereafter
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Ohm's law is not valid for low voltage

Which of the following statements does not differentiate between electrochemical cell and electrolytic cell?

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Spontaneous or non-spontaneous nature of the chemical process.
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Chemical reactions occurring at the electrodes
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Positive and negative nature of anode.
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EMF measurement.

Statement $$II$$: In an electrochemical cell, anode and cathode are, respectively, negative and positive electrode.
Statement $$II$$: At anode, oxidation takes place and at cathode reduction takes place.

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If both statements are CORRECT, and Statement $$II$$ is the CORRECT explanation of Statement $$I$$.
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If both statements are CORRECT, and Statement $$II$$ is NOT the CORRECT explanation of Statement $$I$$.
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If Statement $$I$$ is CORRECT, but Statement $$II$$ is INCORRECT.
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If Statement $$I$$ is INCORRECT, but Statement $$II$$ is CORRECT.

$${ E }_{ cell }^{ o }$$ for the reaction $$Co(s)+{ Ni }^{ 2+ }\quad \longrightarrow { Co }^{ 2+ }+Ni(s)$$ is $$+0.03$$ volt. If cobalt metal is added to an aqueous solution having $$\left[ { Ni }^{ 2+ } \right] =1M$$

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the reaction will not proceed in the forward direction at all
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the displacement of $${Ni}^{2+}$$ from solution by $$Co$$ will go to completion
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the displacement of $${Ni}^{2+}$$ from solution by $$Co$$ will proceed to a considerable extent, but the reaction will stop before the $${Ni}^{2+}$$ is completely displaced
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only the reverse reaction will occur

Resistance of 0.2 M solution of an electrolyte is 50 $$\Omega $$. The specific conductance of the solution of 0.5 M solution of the same electrolyte is 1.4 S $$ m^{-1} $$ and resistance of the same solution of the electrolyte is 280 $$\Omega $$. The molar conductivity of 0.5 M solution of the electrolyte is ?

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$$ 5\times 10^{-4} $$
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$$ 5\times 10^{-3} $$
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$$ 5\times 10^{3} $$
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$$ 5\times 10^{2} $$

Corrosion is an electrochemical process. It involves:

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Loss of electrons by iron, $$Fe\longrightarrow Fe^{2+}+2e$$. i.e iron acts as an anode
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Impurities act as a cathode. Electrons are used in forming hydroxyl ions
$$H_2O+O+2e \longrightarrow 2OH^-$$
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Ferrous ions are oxidised to ferries ions in presence of dissolved oxygen.
$$2Fe^{2+}+O+H_2O\longrightarrow 2Fe^{3+}+2OH^-$$
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All the above reactions

$$\cfrac { 1 }{ 2 } { H }_{ 2 }(g)+AgCl(s)={ H }^{ + }(aq)+{ Cl }^{ - }(aq)+Ag(s)$$ occurs in the galvanic cell:

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$$Ag/AgCl(s)|KCl(sol)\parallel Ag{ NO }_{ 3 }(sol)|Ag\quad $$
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$$Pt/{ H }_{ 2 }(g)|HCl(sol)\parallel Ag{ NO }_{ 3 }(sol)|Ag$$
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$$Pt/{ H }_{ 2 }(g)|HCl(sol)\parallel AgCl(s)|Ag$$
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$$Pt/{ H }_{ 2 }(g)|KCl(sol)\parallel AgCl(s)|Ag$$

In the galvanic cell, $$Cu|{ Cu }^{ 2+ }(1M)\parallel { Ag }^{ + }(1M)|Ag$$, the electrons will travel in the external circuit:

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from $$Ag$$ to $$Cu$$
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from $$Cu$$ to $$Ag$$
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electrons do not travel in the external circuit
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none of these

Which of the following facts about the chemical cell and concentration cell is correct?

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Chemical cell is an electrolytic cell whereas concentration cell is a galvanic cell
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Chemical cell has an overall cell reaction whereas the concentration cell has no overall reaction.
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Two half cells of both the chemical and concentration cells are chemically different
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$${E}_{cell}$$ equations (Nernst equation) of both the cells have the therm $${E}_{cell}^{o}$$

One coulomb is the charge of

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$$1$$ mole of electrons
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$$\dfrac{1}{96500}$$ mole of electrons
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$$\% 500$$ moles of electrons
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$$none\ of\ these$$

Two electrolytic cells containing $$CuSO_{4}$$ and $$AgNO_{4}$$ respectively are connected in series and a current is passed through them unit 1 mg of copper is deposited in the first cell. The amount of silver deposited in the second cell during this time is approximately
[ Atomic weight of copper and silver are respectively 63.57 and 107.88]

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$$3.4 mg$$
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$$5.1 mg$$
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$$6.8 mg$$
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$$1.7 mg$$

Resistance of a voltameter is 2$$\Omega $$, it is connected in series to a battery of 10 V through a resistance of 3$$\Omega $$ . In a certain time mass deposited on cathode is 1 gm. Now the voltameter and the 3$$\Omega $$resistance are connected in parallel with the battery. Increase in the deposited mass on cathode in the same time will be

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0
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1.5 gm
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2.5 gm
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2 gm

The amount of charge required to liberate 9 gm of aluminium ( atomic weight = 27 and valency = 3 ) in the process of electrolysis is ( Faraday's number = 96500 coulombs/gm equivalent)

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321660 coulombs
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69500 coulombs
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289500 coulombs
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96500 coulombs

$$E_n = -\dfrac{313.6}{n^2}$$, if the value of $$E_i = -38.84$$ to which value 'n' corresponds?

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2
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4
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1
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3

If redox reaction takes place in cell then electromotive force (e.m.f) of cell will be:

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positive
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negative
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zero
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one

Which of the following mixtures represents rusting of iron?

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FeO and Fe(OH)$$_3$$
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FeO and Fe(OH)$$_2$$
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Fe$$_2$$O$$_3$$ and Fe(OH)$$_3$$
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Fe$$_3$$O$$_4$$ and Fe(OH)$$_2$$

A cell reaction would be spontaneous if the cell potential and $$ \Delta_{r} G $$ are respectively:

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positive and negative
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negative , negative
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zero ,zero
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positive , zero

Which of the following statements is correct?

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$$E_{cell}$$ and $$\Delta _rG$$ of a cell reaction,both are extensive properties.
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$$E_{cell}$$ and $$\Delta _rG$$ of a cell reaction, both are intensive properties.
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$$E_{cell}$$ is an intensive property, while $$\Delta _rG$$ of a cell reaction is an extensive property.
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$$E_{cell}$$ is an extensive property, while $$\Delta _rG$$ of a cell reaction is an intensive property.

Standard electrode potential data are useful for understanding the suitability of an oxidant in a redox titration. Some half cell reactions and their standard potentials are given below: $$MnO^{-}_4(aq)+8H^{+}(aq)+6e^{-} \longrightarrow $$ $$ \mathrm{Mn}^{2+}(a q)+4 \mathrm{H}_{2} \mathrm{O}(l) \mathrm{E}^{\circ}=1.51 \mathrm{V} $$
$$ \mathrm{Cr}_{2} \mathrm{O}_{7}^{2-}(a q)+14 \mathrm{H}^{+}(a q)+6 e^{-} \longrightarrow $$ $$ 2 \mathrm{Cr}^{3+}(a q)+7 \mathrm{H}_{2} \mathrm{O}(l) ; \mathrm{E}^{\circ}=1 \cdot 38 \mathrm{V} $$
$$ \mathrm{Fe}^{3+}(a q)+e^{-} \longrightarrow \mathrm{Fe}^{2+}(a q) ; \mathrm{E}^{\circ}=0.77 \mathrm{V} $$
$$ \mathrm{Cl}_{2}(g)+2 e^{-} \rightarrow 2 \mathrm{Cl}^{-}(a q) ; \mathrm{E}^{\circ}=1 \cdot 40 \mathrm{V} $$

Identify the only incorrect statement regarding the quantitative estimation of aqueous
$$ \mathrm{Fe}\left(\mathrm{NO}_{3}\right)_{2} $$

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$$ \mathrm{MnO}_{4}^{-} $$ can be used in aqueous $$HCl$$
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$$ \mathrm{Cr}_{2} \mathrm{O}_{7}^{2-} $$ can be used in aqueous $$HCl$$
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$$ \mathrm{MnO}_{4}^{-} $$ can be used in aqueous $$ \mathrm{H}_{2} \mathrm{SO}_{4} $$
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$$ \mathrm{Cr}_{2} \mathrm{O}_{7}^{2-} $$ can be used in aqueous $$ \mathrm{H}_{2} \mathrm{SO}_{4} $$

Which of the following is displaced by Fe ?

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Ag
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Zn
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Na
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None of these

CBSE Questions for Class 12 Engineering Chemistry Electrochemistry Quiz 14 - MCQExams.com

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Practice Class 12 Engineering Chemistry Quiz Questions and Answers

CBSE Questions for Class 12 Engineering Chemistry Electrochemistry Quiz 14 - MCQExams.com

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Practice Class 12 Engineering Chemistry Quiz Questions and Answers

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