Electrochemistry MCQ Questions & Answers in Physical Chemistry | Chemistry
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311.
Given, $$E_{\frac{{C{l_2}}}{{C{l^ - }}}}^o = 1.36V,\,E_{\frac{{C{r^{3 + }}}}{{C{l^ - }}}}^o\, = - 0.74V,$$ $$E_{\frac{{C{r_2}O_7^{2 - }}}{{C{r^{3 + }}}}}^o = 1.33V,\,E_{\frac{{MnO_4^ - }}{{M{n^{2 + }}}}}^o = 1.51V.$$ Among the following, the strongest reducing agent is
A
$$Cr$$
B
$$M{n^{2 + }}$$
C
$$C{r^{3 + }}$$
D
$$C{l^ - }$$
Answer :
$$Cr$$
$$\eqalign{
& E_{MnO_4^ - /M{n^{2 + }}}^o = 1.51V \cr
& E_{C{l_2}/C{l^ - }}^o = 1.36V \cr
& E_{C{r_2}O_7^{2 - }/C{r^{3 + }}}^o = 1.33V \cr
& E_{C{r^{3 + }}/Cr}^o = - 0.74 \cr} $$
More negative the $${E^ \circ }$$ value of the species, more stronger is the reducing agent. Since $$C{r^{3 + }}$$ is having least reducing potential, so $$Cr$$ is the best reducing agent.
312.
Choose the option with correct words to fill in the blanks.
According to preferential discharge theory, out of number of ions the one which requires _______ energy will be liberated _______ at a given electrode.
A
least, first
B
least, last
C
highest, first
D
moderate, last
Answer :
least, first
No explanation is given for this question. Let's discuss the answer together.
313.
The standard reduction potential for $$\frac{{C{u^{2 + }}}}{{Cu}}$$ is + 0.34 $$V.$$ What will be the reduction potential at $$pH = 14?$$ $$\left[ {{\text{Given:}}\,{K_{sp}}\,{\text{of}}\,\,Cu{{\left( {OH} \right)}_2}\,{\text{is}}\,{\text{1}}{\text{.0}} \times {\text{1}}{{\text{0}}^{ - 19}}} \right]$$
314.
The resistance of $$1\,N$$ solution of acetic acid is $$250\,ohm,$$ when measured in a cell of cell constant $$1.15\,c{m^{ - 1}}.$$ The equivalent conductance $$\left( {{\text{in}}\,oh{m^{ - 1}}c{m^2}equi{v^{ - 1}}} \right)$$ of $$1\,N$$ acetic acid will be
315.
How long (approximate) should water be electrolysed by passing through 100 amperes current so that the oxygen released can completely burn $$27.66 g$$ of diborane? ( Atomic weight of $$B= 10.8 u$$ )
A
6.4 hours
B
0.8 hours
C
3.2 hours
D
1.6 hours
Answer :
3.2 hours
$${B_2}{H_6} + 3{O_2} \to {B_2}{O_3} + 3{H_2}O$$
$$27.66 g$$ of $${B_2}{H_6}$$ (1 mole) requires 3 moles of oxygen $$\left( {{O_2}} \right)$$ (3 moles) is obtained by electrolysis of 6 moles of $${H_2}O$$
On electrolysis : $$6{H_2}O \to 6{H_2} + 3{O_2}$$
Number of Faradays = 12 = Amount of charge
$$\eqalign{
& 12 \times 96500 = i \times t \cr
& 12 \times 96500 = 100 \times t \cr
& t = \frac{{12 \times 96500}}{{100}}{\text{second}} = \frac{{12 \times 96500}}{{100 \times 3600}}{\text{hour}} \cr
& = 3.2\,{\text{hours}} \cr} $$
316.
The equilibrium constant of the reaction, $$Cu\left( s \right) + 2\,A{g^ + }\left( {aq} \right) \to $$ $$C{u^{2 + }}\left( {aq} \right) + 2Ag\left( s \right),$$ $${E^ \circ } = 0.46\,V$$ at $$298\,K$$ is
317.
A device that converts energy of combustion of fuels like hydrogen and methane, directly into electrical energy is known as
A
fuel cell
B
electrolytic cell
C
dynamo
D
$$Ni-Cd$$ cell
Answer :
fuel cell
Fuel cell is a device that converts energy of combustion of fuels like hydrogen and methane, directly into electrical energy. Electrolytic cell converts electrical energy into chemical energy. Dynamo is an electrical generator that produces direct current with the use of a commutator.
$$Ni{\text{ - }}Cd$$ cell is a type of rechargeable battery which consists of a cadmium anode and a metal grid containing $$Ni{O_2}$$ acting as a cathode.
318.
What would be the equivalent conductivity of a cell in which $$0.5\,N$$ salt solution offers a resistance of $$40\,ohm$$ whose electrodes are $$2\,cm$$ apart and $$5\,c{m^2}$$ in area?
319.
Following reactions are taking place in a Galvanic cell, $$Zn \to Z{n^{2 + }} + 2{e^ - };A{g^ + } + {e^ - } \to Ag$$
Which of the given representations is the correct method of depicting the cell?
A
$$Z{n_{\left( s \right)}}\left| {Zn_{\left( {aq} \right)}^{2 + }} \right|\left| {Ag_{\left( {aq} \right)}^ + } \right|A{g_{\left( s \right)}}$$
B
$$Z{n^{2 + }}\left| {Zn} \right|\left| {Ag} \right|A{g^ + }$$
C
$$Z{n_{\left( {aq} \right)}}\left| {Zn_{\left( s \right)}^{2 + }} \right|\left| {Ag_{\left( s \right)}^ + } \right|A{g_{\left( {aq} \right)}}$$
D
$$Z{n_{\left( s \right)}}\left| {Ag_{\left( {aq} \right)}^ + } \right|\left| {Zn_{\left( {aq} \right)}^{2 + }} \right|A{g_{\left( s \right)}}$$
Answer :
$$Z{n_{\left( s \right)}}\left| {Zn_{\left( {aq} \right)}^{2 + }} \right|\left| {Ag_{\left( {aq} \right)}^ + } \right|A{g_{\left( s \right)}}$$
$$Zn + 2A{g^ + } \to Z{n^{2 + }} + 2Ag$$ can be represented as $$Z{n_{\left( s \right)}}\left| {Zn_{\left( {aq} \right)}^{2 + }} \right|\left| {Ag_{\left( {aq} \right)}^ + } \right|A{g_{\left( s \right)}}$$
320.
Resistance of $$0.2 M$$ solution of an electrolyte is $$50\,\Omega .$$ The specific conductance of the solution is $$1.4\,S\,{m^{ - 1}}.$$ The resistance of $$0.5 M$$ solution of the same electrolyte is $$280\,\Omega .$$ The molar conductivity of 0.5 M solution of the electrolyte in $$S\,{m^2}mo{l^{ - 1}}$$ is :