Electrochemistry

Q 1.

Calculate the potential of hydrogen electrode in contact with a solution whose pH is 10.

Q 2.

Three electrolytic cells A, B, C containing solutions of ZnS0₄, AgNO₃ and CuS0₄, respectively are connected in series. A steady current of 1.5 amperes was passed through them until 45 g of silver deposited at the cathode of call B. How long did the current flow? What mass of copper and zinc were deposited?

Q 3.

The positive value of the standard electrode potential of Cu⁺²/Cu indicates that
(a) this redox couple is a stronger reduction agent than the H^{/H₂  couple}
(b) this redox couple is a stronger oxidizing agent than H⁺/H₂
(c) Cu can displace  H₂ from acid
(d) Cu cannot displace  H₂   from acid

Q 4.

Use the data given in Q. 8 and find out the most stable ion in its reduced form.

Q 5.

The conductivity of 0.20 M solution of KCl at 298 K is 0.0248 S cm^-1. Calculate its molar conductivity.

Q 6.

Assertion (A): E , increases with increase in concentration of  Ag⁺ ions.
Ag /  Ag⁺
Reason (R): E + has a positive value.
Ag /Ag

Q 7.

How much charge is required for the following reductions:
(i) 1 mol of Al³⁺ to Al?
(ii) 1 mol of Cu²⁺ to Cu ?
(iii) 1 mol of Mn04- to Mn²⁺?

Q 8.

E °en = 1.1 V for Daniell cell. Which of the following expressions are correct description of state of equilibrium in this cell?

Q 9.

Define conductivity and molar conductivity for the solution of an electrolyte. Discuss their variation with concentration.

Q 10.

What will happen during the electrolysis of aqueous solution of CuSO₄ in the presence of Cu electrodes?
(a) Copper will deposit at cathode.
(b) Copper will dissolve at anode.
(c) Oxygen will be released at anode.
(d) Copper will deposit at anode.

Q 11.

Conductivity K, is equal to

Q 12.

Write the Nemst equation for the cell reaction in the Daniell cell. How will the Ecell be affected when concentration of Zn²⁺ ions is increased?

Q 13.

Write the cell reaction of a lead storage battery when it is discharged. How does the density of the electrolyte change when the battery is discharged?

Q 14.

Predict the products of electrolysis in each of the following.
(i) An aqueous solution of AgNO₃ with silver electrodes.
(ii) An aqueous solution of AgNO₃ with platinum electrodes.
(iii) A dilute solution of H₂S0₄ with platinum electrodes.
(iv) An aqueous solution of CuCl₂ with platinum electrodes.

Q 15.

Use the data given in Q. 8 and find out which of the following is the strongest oxidizing agent.

Q 16.

Match the items of Column I and Column II.

Q 17.

The molar conductivity of 0.025 mol L^-1  methanoic acid is 46.1 S cm² mol^-1. Calculate its degree of dissociation and dissociation constant Given λ ^°(H⁺)=349.6 S cm² mol^-1 andλ ^°(HCOO-) = 54.6 S  cm² mol^-1

Q 18.

Consider the figure given below and answer the questions (i) to (vi) that follow.

(i) Redraw the diagram to show the direction of electron flow.
(ii) Is silver plate anode or cathode?
(iii)What will happen if salt bridge is removed?
(iv)When will the cell stop functioning?
(v)How will concentration of Zn⁺²  cell functions?
(vi)How will the concentration of Zn⁺² ions and Ag⁺ ions be affected after the cell becomes ‘dead'?

Q 19.

Consultthe table of standard electrode potentials and suggest three substances that can oxidise ferrous ions under suitable conditions.

Q 20.

The quantity of charge required to obtain one mole of aluminium from

Al₂O₃ is  (a) IF (b) 6F (c) 3F (d) 2F

Q 21.

How will the pH of brine (aq. NaCl solution) be affected when it is electrolysed?

Q 22.

Match the terms given in Column I with the items given in Column II.

Q 23.

Given the standard electrode potentials, K⁺/K=-2. 93 V, Ag⁺/Ag = 0.80 V, Hg²⁺/Hg =0.79V, Mg²⁺/Mg=-2.37V, Cr³⁺/Cr=0.74V.
Arrange these metals in their increasing order of reducing power.

Q 24.

Conductivity of 0.00241 M acetic acid is 7.896 x 10^-5 S cm^-1. Calculate its molar conductivity.  If Λ_m0, for acetic acid is 390.5 S cm² mol^-1, what is its dissociation constant?

Q 25.

What does the negative sign in the expression  mean? Zn /Zn

Q 26.

When acidulated water (dil. H2SO₄ solution) is electrolysed, will the pH of the solution be affected? Justify your answer.

Q 27.

How much electricity in terms of Faraday is required to produce .
(i) 20.0 g of Ca from molten CaCl₂?
(ii) 40.0 g of Al from molten Al₂0₃?

Q 28.

Assertion (A): Lm for weak electrolytes shows a sharp increase when the electrolytic solution on dilution of solution.
Electrockemistrij 63
Reason (R): For weak electrolytes dissociate partially in concentrated solution. On dilution, their degree of dissociation increases hence their Am increases sharply.

Q 29.

Q 30.

Can absolute electrode potential of an electrode be measured?

Q 31.

Aqueous copper sulphate solution and aqueous silver nitrate solution are electrolysed by 1 ampere current for 10 minutes in separate electrolytic cells. Will the mass of copper and silver deposited on the cathode be same or different? Explain your answer.

Q 32.

Why is alternating current used for measuring resistance of an electrolytic solution?

Q 33.

What is the relationship between Gibbs free energy of the cell reaction in a galvanic cell and the emf of the cell? When will the maximum work be obtained from a galvanic cell?

Q 34.

The cell in which the following reaction occurs:  2Fe³⁺ (aq) + 2I^– (aq) —> 2Fe²⁺ (aq) +I² (s)  has E ^°_cell=0.236 V at 298 K. Calculate the standard Gibbs energy and the equilibrium constant of the cell reaction.

Q 35.

Depict the galvanic cell in which the reaction
Zn(s) + 2Ag⁺(aq) —-> 7M²⁺(aq) + 2Ag (s) takes place. Further show:
(i) Which of the electrode is negatively charged?
(ii) The carriers of the current in the cell.
(iii) Individual reaction at each electrode.

Q 36.

In the button cells widely used in watches and other devices the following reaction takes place:

Q 37.

Which of the following statements is correct?

Q 38.

An electrochemical cell can behave like an electrolytic cell when

Q 39.

Match the terms given in Column 1 with the units given in Column II.

Q 40.

Match the items of Column I and Column II.

Q 41.

Assertion (A): For measuring resistance of an ionic solution an AC source is used.
Reason (R): Concentration of ionic solution will change if DC source is used.

Q 42.

Assertion (A): Current stops flowing when  E_cell = 0.
Reason (R): Equilibrium of the cell reaction is attained.

Q 43.

How would you determine the standard electrode potential of the system Mg²⁺¹  Mg?

Q 44.

The resistance of a conductivity cell containing 0.001 M KCI solution at 298 K is 1500 Ω What is the cell constant if conductivity of 0.001 M KCI solution at 298 K is 0.146 x 10^-3 S cm^-1?

Q 45.

Electrode potential for Mg electrode varies according to the equation

Q 46.

Unlike dry cell, the mercury cell has a constant cell potential throughout its useful life. Why?

Q 47.

Solutions of two electrolytes 'A' and 'B' are diluted. The Am of 'B' increases 1.5 times while that of A increases 25 times. Which of the two is a strong electrolyte? Justify your answer.

Q 48.

In an aqueous solution, how does specific conductivity of electrolytes change with addition of water?

Q 49.

Assertion (A): Ecell should have a positive value for the cell to function. Reason (R). Ecadlode Eanode

Q 50.

Assertion (A): Electrolysis of NaCl solution gives chlorine at anode instead of 02.
Reason (R): Formation of oxygen at anode requires overvoltage.