(a) The following reaction scheme is an illustration of the contact process. Study the scheme...
(a) The following reaction scheme is an illustration of the contact process. Study the scheme and answer the questions that follow.
(i) Name X and Y
(ii) Write a balanced chemical equation for each of the processes I, II, III and IV
(iii) Name the catalyst used in process II
(iv) Using Le Chatelier's principle, explain briefly why increasing the temperature would not favour the reaction in II
(v) State two uses of SO\(_2\)
(b) Consider the following equation: 2H\(_{2(g)}\) + O\(_{2(g)}\) \(\to\) 2H\(_2\)O\(_{(g)}\)
Calculate the volume of unused oxygen gas when 40 cm\(^3\) of hydrogen gas is sparked with 30cm\(^3\) of oxygen gas
(c) Calcium carbonate of mass 1.0 g was heated until there was no further change.
- Write an equation for the reaction which took place.
- Calculate the mass of the residue.
- Calculate the volume of the gas evolved ats.t.p.
- What would be the volume of the gas measured at 15 and 760mmHg? [C= 12.0, O = 16.0, Ca = 40.0, molar volume of a gas at s.t.p. = 22.4dm\(^3\) ]
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Explanation
(a) (i) X - oxygen
Y - sulphur
(ii) I. - S(s) + O\(_{2(g)}\) \(\to\) SO\(_{2(g)}\) (1)
II. - 2SO\(_{2(g)}\) + O\(_{2(g)}\) \(\to\) 2SO\(_{3(g)}\) (2)
III. - SO\(_{3(g)}\) + H\(_2\)SO\(_{4(aq)}\) \(\to\) H\(_2\)S\(_2\)O\(_7\)\(_{(l)}\) (1)
IV. - H\(_2\)S\(_2\)O\(_7\)\(_{(l)}\) + H\(_2\)O\(_{(l)}\) 2H\(_2\)SO\(_{4(aq)}\) (2)
(iii) Vanadium (V) oxide (1)
(iv) It is because the reaction is exothermic
(v) - In bleaching wood pulp, wool silk, hay
- as germicide and fumigant/ disinfectant
- as refrigerant / refrigerating gas/coolant
- as preservative for grains and fruits
- manufacture of H\(_2\)SO\(_4\)
- as a reducing agent in metallurgy
- for dechlorination
(b) From the equation,
2 mol of H\(_2\) reacts with 1 mol of O\(_2\)
hence 40 cm\(^3\) of H\(_2\) would react with 20 cm\(^3\) of O\(_2\)
Volume of unused oxygen = (30 – 20) cm\(^3\)
= 10 cm\(^3\)
(c) (i) CaCO\(_3\) \(\to\) CaO + CO\(_2\)
(ii) CaCO\(_3\) = 40 + 12 + (16 x 3) = 100 g
CaO = 40 + 16 = 56 g
100 g of CaCO\(_3\) \(\to\)&