MCQ Chapter 3 Electrochemistry Class 12 Chemistry

MCQ Questions Class 12

Please refer to Electrochemistry MCQ Questions Class 12 Chemistry below. These MCQ questions for Class 12 Chemistry with answers have been designed as per the latest NCERT, CBSE books and syllabus issued for the current academic year. These objective questions for Electrochemistry will help you to prepare for the exams and get more marks.

Electrochemistry MCQ Questions Class 12 Chemistry

Please see solved MCQ Questions for Electrochemistry in Class 12 Chemistry. All questions and answers have been prepared by expert faculty of standard 12 based on latest examination guidelines.

Question. What will be pH of aqueous solution of electrolyte in electrolytic cell during electrolysis of CuSO4 ( aq) between graphite electrodes? 
(a) pH = 14.0
(b) pH > 7.0
(c) pH < 7.0
(d) pH = 7.0       

Answer

C

Question. Two different electrolytic cells filled with molten Cu(NO3 )and molten Al(NO3 )3 respectively are connected in series. When electricity is passed 2.7 g Al is deposited on electrode. Calculate the weight of Cu deposited on cathode. (Cu= 63.5, Al= 27.0 g mol-1 ) 
(a) 190.5 g
(b) 9.525 g
(c) 63.5 g
(d) 31.75 g       

Answer

B

Question. Molar conductance of electrolytic solution Am is 
(a) ∝ /
(b) ∝(1/ A)
(c) ∝ (1/C)
(d) ∝ (✓C)     

Answer

C

Question. The molar conductivities A°naOAc and A°HCl at infinite dilution in water at 25°C are 91.0 and 426.2 S cm2/mol respectively. To calculate A°HOAc′ the additional value required is 
(a) A°H2O
(b) A°KCl
(c) A°NaOH
(d) A°NaCl     

Answer

D

Question. Ionisation depends upon
(a) pressure
(b) volume
(c) dilution
(d) None of these   

Answer

C

Question. Resistance of a conductivity cell filled with a solution of an electrolyte of concentration 0.1 M is 100 Ω. The conductivity of this solution is 1.29 Sm-1 . Resistance of the same cell when filled with 0.2 M of the same solution is 520 Ω. The molar conductivity of 0.02 M solution of the electrolyte will be 
(a) 124 x 10-4 S mmol-1
(b) 1240 x 10-4 S mmol-1
(c) l.24 x 10-4 S mmol-1
(d)12.4 x 10-4 S mmol-1     

Answer

D

Question. Which one of the following has the highest molar conductivity ? 
(a) Diaminedichloroplatinum (II)
(b) Tetraaminedichlorocobalt (III) chloride
(c) Potassium hexacyanoferrate (II)
(d) Hexaaquocbrornium (III) bromide
(e) Pentacarbonyl iron (0)       

Answer

C

Question. A silver cup is plated with silver by passing 965 C of electricity. The amount of Ag deposited is 
(a) 107.89 g
(b) 9.89 g
(c) 1.0002 g
(d) 1.08 g     

Answer

D

Question. What is the effect of dilution on the equivalent conductance of strong electrolyte ? 
(a) Decreases on dilution
(b) Remains unchanged
(c) Increases on dilution
(d) None of these   

Answer

C

Question. Suppose that gold is being plated on to another metal in an electrolytic cell. The half reaction producing the Au(s) is AuCl4 → Au(s)+4CI – 3e– Ifa 0.30 A current run for 15 min, what mass of Au(s)will be plated, assuming all the electrons are used in the reduction of AuCI4? The Faraday constant is 96485 c/mol and molar mass of Au is 197. 
(a) 0.184 g Au
(b) 0.551 g Au
(c) 1.84 g Au
(d) 0.613 g Au     

Answer

A

Question. Impure copper containing Fe, Au, Ag as impurities is elect:rolytically refined. A current of 140 A for 482.5s and decreased the mass of the anode by 22.26 g and increased the mass of cathode by 22.011 g percentage of iron in irnpw·e copper is (given molar mass Fe = 55.5 g / mo~ molar mass of Cu = 63 .54 g/mol) 
(a) 0.95
(b) 0.85
(c) 0.97
(d) 0.9       

Answer

D

Question. The quantity of electricity required to libreate 112 cmof hydrogen at STP from acidified water is 
(a) 965 Coulombs
(b) 1 Faraday
(c) 0.1 Faraday
(d) 96500 Coulombs     

Answer

A

Question. When 9.65 C of elecricity is passed through a solution of silver nitrate (atomic mass of Ag = l 08 g mol-1), the amount of silver deposited is 
(a) 16.2mg
(b) 21.2mg
(c) 10.8 mg
(d) 6.4 mg     

Answer

C

Question. The highest electrical conductivity of the following aqueous solutions is of 
(a) 0.1 M difluoroacetic acid
(b) 0.1 M fluoroacetic acid
(c) 0.1 M chloroacetic acid
(d) 0.1 M acetic acid     

Answer

A

Question. The approx.inmte time duration in hours to electroplate 30g of calcium from molten calcium chloride using a cwrent of 5 A is (At. mass of Ca = 40) 
(a) 80
(b) 10
(c) 16
(d) 8         

Answer

D

Question. Read the following statement and predict the corresponding law? ‘At infinite dilution when dissociation is complete, each ion makes a definite contribution towards total equivalent conductance of the electrolyte itrespective of the nature of the ion. 
(a) Ostwald’s-dilution law
(b) Kohlrausch’s law
(c) Nernst equation
(d) Ohm’s law           

Answer

B

Question. Given, l / a= 0. 5 cm-1 , R = 50 ohm, N = 1.0. The equivalent conductance of the electrolytic cell is 
(a) 10 Ω-1 cm2 equiv-1
(b) 20 Ω-1 cm2 equiv-1
(c) 300 Ω-1 cm2 equiv-1
(d) 100 Ω-1 cm2 equiv-1     

Answer

A

Question. 9.65 C of electric current is passed through fused anhydrous MgCI2 . The magnesium metal thus obtained is completely converted into a Grignard reagent. The number of moles of Grignard reagent obtained is 
(a) 5 x 10-4
(b) 1 x 10-4
(c) 5 X 10-5
(d) 1 X 10-5     

Answer

C

Question. During the electrolysis of molten NaCl solution, 230 g of sodium metal is deposited on the cathode, then how many moles of chlorine will be obtained at anode? 
(a) 10.0
(b) 5.0
(c) 35.5
(d) 17.0     

Answer

B

Question. Give the products available on the cathode and the anode respectively during the electrolysis of an aqueous solution of MgSO4 between inert electrodes. 
(a) H2 (g) and O2 (g )
(b) O2 (g) and H2 (g)
(c) O2 (g) and Mg (s)
(d) O2 (g) and SO2 (g)     

Answer

A

Question. A solution of CuSO4 is electrolysed for 10 min with a current of 1.5 A. What is the mass of copper deposited at the cathode? 
(a) 2.096 g
(b) 0.296 g
(c) 3.029 g
(d) 2.906 g         

Answer

B

Question. Silver is monovalent and has an atomic mass of 108. Copper is divalent and has an atomic mass of 63.6. The san1e electric current is passed, for the same length of time through a silver coulometer and a copper coulometer. If 27 .0 g of silver is deposited, then the coorresponding amount of copper deposited is 
(a) 63.60 g
(b) 31.80 g
(c) 15.90 g
(d) 7.95 g
(e) 4.00 g     

Answer

D

Question. 1n the electrolysis of acidulated water, it is desired to obtain 1.12 cc of hydrogen per second under STP condition. The current to be passed is 
(a) 1.93 A
(b) 9.65 A
(c) 19.3 A
(d) 0.965 A     

Answer

B

Question. The amount of electricity required to produce one mole of copper from copper sulphate solution will be
(a) 1 F
(b) 2.33 F
(c) 2 F
(d) 1.33 F   

Answer

C

Question. Electrolysis of dilute aqueous NaCl solution was canied out by passing 10 mA current. The time required to liberate 0.01 mole ofH2 gas at the cathode is (IF= 96500 C mol-1
(a) 9.65 x 104 s
(b) 19.3 x 104 s 
(c) 28.95 x 104 s
(d) 38.6 x 104 s   

Answer

B

Question. When same quantity of electricity is passed through  aqueous AgNO3 and H2SO4 solutions connected in series, 5.04 x 10-2 g of H2 is liberated. What is the mass of silver (in grams) deposited? (Eq. wts. ofhydrogen= 1. 008, silver = 108)
(a) 54
(b) 0.54
(c) 5.4
(d) 10.8       

Answer

C

Question. If’F’ is Faraday and ‘N’ is Avogadro number, then charge of electron can be expressed as
(a) F X N
(b) F / N
(c) N / F
(d) F2N     

Answer

B

Question. By passing 9.65 A current for 16 min 40 s, the volume of O2 liberated at STP will be 
(a) 280 mL
(b) 560 mL
(c) 1120 mL
(d) 2240 mL     

Answer

C

Question. Which substance is obtained in the solution on electrolysis of aqueous CuSO4 solution using graphite electrodes?
(a) H2O
(b) H2SO4 
(c) Na2SO4
(d) Cu(OH)2     

Answer

A

Question. In a hydrogen-oxygen fuel cell, combustion of hydrogen occurs to 
(a) generate heat
(b) create potential difference between the two electrodes
(c) produce high purity water
(d) remove adsorbed oxygen from electrode surfaces     

Answer

B

Question. The amount of substance deposited by the passage of lA of ctment for l s is equal to 
(a) equivalent mass
(b) molecular mass
(c) electrochemical equivalent
(d) specific equivalent       

Answer

C

Question. Use of electrolysis is not done in 
(a) production of Na
(b) production of water
(c) pmification of metals
(d) production of KOH     

Answer

B

Question. When electric current is passed through acidified water for1930 s, 1120 mL of H2 gas is collected (at STP) at the cathode. What is the current passed in amperes?
(a) 0.05
(b) 0.50
(c) 5.0
(d) 50       

Answer

C

Question. What flows in the intemal circuit of a galvanic cell?
(a) Ions
(b) Electrons 
(c) Electricity
(d) Atoms   

Answer

A

Question. Assertion (A) A current of 96.5 A is passed into aqueous AgNO3 solution for 100 s. The weight of silver deposited is 10.8 g (Atomic weight of Ag = 108) Reason (R) The mass of a substance deposited during the electrolysis of an electrolyte is inversely proportional to the quantity of electricity passing through the electrolyte. 
(a) Both A and R are cotTect and R is the correct explanation of A
(b) Both A and R are correct but R is not the correct explanation of A
(c) A is cotTect but R is incorrect
(d) A is incotTect but Reason is correct   

Answer

C

Question. A lamp draws a current of 1.0 A. Find the charge in coulomb used by the lamp in 60 s.
(a) 0.6 C
(b) 60 C
(c) 600 C
(d) 0.006 C     

Answer

B

Question. Galvanic cell is a device in which 
(a) chemical energy is converted into electrical energy
(b) electrical energy is converted into chemical energy
(c) chemical energy is seen in the form of heat
(d) thermal energy from an outside source is used to dtive the cell reaction     

Answer

A

Question. The amount of silver deposited on passing 2 F of electricity through aqueous solution of AgNO3 is 
(a) 54g
(b) 108g
(c) 216g
(d) 324g       

Answer

C

Question. A current of 12 A is passed through an electrolytic cell containing aqueous NiSO4 solution. Both Ni and H2 gas are formed at the cathode. The c1ment efficiency is 60%. What is the mass of nickel deposited on the cathode per hour? 
(a) 7.883g
(b) 3.941g
(c) 5.91g
(d) 2 .645g       

Answer

B

Question. Calculate the volume of H2 gas at NTP obtained by passing 4 A through acidified H2O for 30 min is 
(a) 0.0836 L
(b) 0.0432 L
(c) 0.1672 L
(d) 0.836 L       

Answer

D

Question. The charge required to liberate one gram equivalent of an element is 
(a) 96500 F
(b) 1 F
(c) 1 C
(d) None of these     

Answer

B

Question. Same amount of electric current is passed through solutions of AgNO3 and HCI. If 1.08 g of silver is obtained in the first case, the amount of hydrogen liberated at STP in the second case is
(a) 224 cm3
(b) 1.008 g
(c) 112 cm3
(d) 22400 cm3     

Answer

C

Question. What is the quantity of electricity (in Coulombs) required to deposit all the silver from 250 mL of 1 MAgNO3 solution ? 
(a) 2412.5
(b) 24125
(c) 4825.0
(d) 48250     

Answer

B

Question. During electrolysis of water the volume of O2 liberated is 2.24 dm3 . The volume of hydrogen liberated, under same conditions will be 
(a) 2.24 dm3 
(b) 1.12 dm3 
(c) 4.48 dm3 
(d) 0.56 dm3       

Answer

C

Question. The standard reduction potentials at 298 K for the following half-cell reactions are given
Zn2+ (aq) + 2e ⇌ Zn(s);-0.762 V
Cr3+ (aq) + 3e ⇌ Cr(s);- 0. 74 V
2H(aq) + 2e ⇌ H2 (g ); +0.00 V
Fe3+ (aq) + e ⇌ Fe2+ (aq); + 0.77 V
Which one of the following is the strongest reducing agent? 
(a) Zn(s)
(b) Cr(s)
(c) H2 (s)
(d) Fe2+(aq)

Answer

A

Question. The cell reaction is spontaneous, when 
(a) E°red is negative
(b) E°red is positive
(c) Δ.G° is negative
(d) Δ.G° is positive

Answer

C

Question. Electrode potential of hydrogen electrode is ….. volt.
(a) 0
(b) + 1 
(c) – 1
(d) None of these

Answer

A

Question. The relationship between Gibbs’ free energy change (ΔG) and emf (E) ofa reversible electrochemical cell is given by
(a) ΔG = nFE
(b) ΔG = nF l E
(c) ΔG = – nFE
(d) ΔG = E l nF

Answer

C

Question. Dipping iron article into a strongly alkaline solution of sodium phosphate 
(a) does not affect the article
(b) forms Fe2O3 ·xH2O on the sw·face
(c) forms iron phosphate film
(d) forms fetTic hydroxide

Answer

A

Question. The cell reaction of the galvanic cell Cu(s) l Cu2+ (aq) ll Hg2+ (aq) l Hg(/) is 
(a) Hg + Cu2+ Hg2+ + Cu
(b) Hg + Cu2+ Cu+ + Hg+
(c) Cu + Hg CuHg
(d) Cu + Hg2+ Cu2+ + Hg

Answer

D

Question. Zn2+→ Zn(s); E° = – 0.76 V
Cu2+→ Cu(s); E° = – 0.34 V
Which of the following is spontaneous?
(a) Zn2+ + Cu  Zn + Cu2+
(b) Cu2+ + Zn Cu + Zn2+
(c) Zn2+ + Cu2+ Zn + Cu
(d) None of the above

Answer

B

Question. Given, E°Cr3+/Cr3+ = 0.72 V, E°Fe2+/Fe+2 = 0.42 V
The potential for the cell
Cr/ Cr3+ (0.1 M) l Fe2+(0.0l M) I Fe is
(a) 0.26 V
(b) 0.399 V
(c) – 0.339 V
(d) – 0.26 V

Answer

A

Question. Which one of the following condition will increase the voltage of the cell represented by the equation?
Cu(s)+ 2Ag+ (aq) ⇌ Cu2+ (aq) + 2Ag(s)
(a) Increase in the dimension of Cu electrode
(b) Increase in the dimension of Ag electrode
(c) Increase in the concentration of Cu2+ ions
(d) Increase in the concentration of Ag+ ions

Answer

D

Question. Hydrogen gas is not liberated when the following metal is added to dil. HCI 
(a) Ag
(b) Zn
(c) Mg
(d) Sn

Answer

A

Question. The cell, Zn l Zn2+ (1 M) ll Cu2+ (1 M) l Cu
(E°cell = 1.10 V), was allowed to be completely dischaued at 298 K. The relative concentration of Zn2+ to
Cu2+ {[Zn2- ] / [Cu2+]} is
(a) antilog (24.08)
(b) antilog (37.3)
(c) 1037.3
(d) 9.65x 104

Answer

B

Question. Given standard electrode potentials
Fe2+ + 2e→ Fe E° = – 0.440 V
Fe3+ + 3e→ Fe E° = – 0.036 V
the standard electrode potential (E°) for
Fe3+ + e→ Fe2+ is
(a) + 0.772 V
(c) +0.417V
(b) – 0.772 V
(d) – 0.414 V

Answer

A

Question. The standard E°red values of A,B and C are + 0.68 V, – 2.54 V, – 0.50 V respectively. The order of their reducing power is 
(a) A > B > C
(b) A > C > B
(c) C > B > A
(d) B > C > A

Answer

D

Question. What is the time (in sec) required for depositing all the silver present in 125 mL of 1 M AgNO3 solution by passing a current of 241.25 A ? (IF = 96500 C)
(a) 10
(b) 50
(c) 1000
(d) 100       

Answer

B

Question. In acidic medium MnO4 is converted to Mn 2+. The quantity of electricity in Faraday required to reduce 0.5 mole of MnO4 to Mn2+ would be 
(a) 2.5
(b) 5
(c) 1
(d) 0.5       

Answer

A

Question. When during electrolysis of a solution of AgNO3, 9650C of charge pass through the electroplating bath, the mass of silver deposited on the cathode will be 
(a) 1.08 g
(b) 10.8 g
(c) 2 1.6 g
(d) 108 g       

Answer

B

Question. Aluminium oxide may be electrolysed at 1000°C to furnish aluminium metal (atomic mass= 27 u; IF= 96500C). The cathode reaction is 
                                                  Al3+ + 3e → AI°
 To prepare 5.12 kg of aluminium metal by this method would require 
(a) 5.49 x 101 C of electricity
(b) 5.49 x 104 C of electricity
(c) 1.83 x 107 Cofelectricity
(d) 5.49 x 107 C of electricity         

Answer

D

Question. The laws of electrolysis were proposed by 
(a) Kohlrausch
(b) Faraday
(c) Haber
(d) Bergius     

Answer

B

Question. When a quantity of electricity is passed through CuSO4 solution, 0.16 g of copper gets deposited. If the same quantity of electricity is passed through acidulated water, then the volume of H2 liberated at STP will be (given, atomic weight of Cu = 64) 
(a) 4.0 cm3
(b) 56 cm3
(c) 604 cm3
(d) 8.0 cm3   

Answer

B

Question. How long (in hours) must a current of 5.0 A be maintained to electroplate 60 g of calcium from molten CaCl2?
(a) 27 h
(b) 8.3 h
(c) 11 h
(d) 16 h     

Answer

D

Question. The cathodic reaction of a dty cell is represented by
2MnO2 (s) + Zn2+ +2e → ZnMn2O4 (s)
If, there are 8 g of MnO2 in the cathodic compartment then the time for which the dty cell will continue to give a Cllffent of 2 mA is 
(a) 25.675 day
(c) 12.8 day
(b) 51.35 day
(d) 6.423 day     

Answer

B

Question. In the electrolysis of water, 1 F of electrical energy would evolve
(a) l mole ofoxygen
(b) 1 g atom ofoxygen
(c) 8 g of oxygen
(d) 22.4 L of oxygen     

Answer

C

Question. Which of the following is not correct ? 
(a) Aqueous solution of NaCl is an electrolyte
(b) The units of electrochemical equivalent are g-coulomb
(c) In the Nernst equation, n represents the number of electrons transferred in the electrode reaction
(d) Standard reduction potential of hydrogen electrode is zero volt.     

Answer

B

Question. The charge required for reduction of lmole of Cr2O72- ions to Cr3+ is 
(a) 96500 C
(b) 2 x 96500 C
(c) 3 x 96500 C
(d) 6 x 96500 C     

Answer

D

Question. When electric current is passed through an ionic hydride in molten state 
(a) hydrogen is liberated at anode
(b) hydrogen is liberated at cathode
(c) no change takes place
(d) hydride ion migrates towards cathode
(e) hydride ion remains in solution     

Answer

A

Question. Which of the following statements (or equation) is correct ? 
(a) The units ofcell emf are Y.cm-1
(b) ΔG =- nF/Ecell
(c) ln galvanic cell, chemical energy is transformed into electrical energy
(d) Oxidation state of Mn in potassium permanganate is + 6   

Answer

C

Question. A galvanic cell is constructed using the redox reaction,
1/2 H2 (g) + AgCl(s) = H+ (aq) + CI (aq )+ Ag(s)
it is represented as
(a) Pt l H2 (g) l HCl solution l AgNO3 solution l Ag
(b) Ag l AgCl(s) l KCl solution ll HCl solution, H2 (g) l Pt
(c) Pt l H2 (g) l KCl solution ll AgCl(s) l Ag
(d) Pt l H2 (g ), HCl solution ll AgCl(s) l Ag   

Answer

D

Question. On passing 0.5 F of electricity through molten sodium chloride, sodium deposited at cathode will be 
(a) 29.25 g
(b) 11.50 g
(c) 58.50 g
(d) 0.00 g     

Answer

B

Question. During charging of lead storage battery, the reaction occurring at the anode is 
(a) Pb2+ + 2e → Pb
(b) Pb → Pb 2+ + 2e
(c) PbSO4 + 2H2O → 2PbO2 + 4H+ + SO42- + 2e
(d) Pb2+ + SO42- → PbSO4       

Answer

C

Electrochemistry MCQ Questions Class 12 Chemistry