Chemistry
Explain why
(a) anhydrous HCl is a poor conductor while aqueous HCl is an excellent conductor.
(b) when the stopper of a bottle full of hydrogen chloride gas is opened there are fumes in the air.
(c) a solution of hydrogen chloride in water turns blue litmus red and conducts electricity, while a solution of the same gas in toluene
(i) has no effect on litmus, and
(ii) does not conduct electricity.
(d) dry hydrogen chloride gas does not affect a dry strip of blue litmus paper, but it turns red in the presence of a drop of water.
(e) dilute hydrochloric acid cannot be concentrated by boiling beyond 22.2%.
Answer
(a) Anhydrous HCl is a gas and does not contain any ions, hence it is a poor conductor of electricity. On the other hand, aqueous HCl (HCl dissolved in water) forms ions in solution, and thus becomes an excellent conductor of electricity.
HCl + H2O ⟶ H3O+ + Cl-
(b) When hydrogen chloride gas is exposed to air, it gives white fumes, due to the formation of hydrochloric acid on dissolving in atmospheric water vapour.
(c) A solution of hydrogen chloride in water gives ions,
HCl + H2O ⟶ H3O+ + Cl-
These ions are responsible for conducting electricity and turning blue litmus red, due to the presence of hydronium [H3O+] ions which make aqueous solution of HCl acidic in nature.
Toluene is an organic solvent and HCl is a covalent compound. A solution of HCl in toluene contains only molecules and not ions due to which it does not conduct electricity. The absence of hydronium [H3O+] ions make the solution neutral and it does not effect litmus paper.
(d) Dry hydrogen chloride gas does not contain any ions. Due to the absence of hydronium [H3O+] ions, it is neutral and does not affect a dry strip of blue litmus paper. On the other hand, in the presence of a drop of water, HCl dissolves in it and dissociates into hydronium [H3O+] ions and chloride ions [Cl-]
HCl + H2O ⟶ H3O+ + Cl-
The presence of hydronium [H3O+] ions makes the aqueous solution acidic and blue litmus turns red.
(e) Hydrochloric acid forms a constant boiling mixture at 110°C, 22.2% by weight. On boiling further, the mixture evolves out the vapours of both acid and water in the same proportion as in the liquid.
Hence, dilute HCl cannot be concentrated beyond 22.2% by boiling.
Related Questions
How will the action of dilute hydrochloric acid enable you to distinguish between the following?
(a) Sodium carbonate and sodium sulphite
(b) Sodium thiosulphate and sodium sulphite.
Write an equation for the reactions of hydrochloric acid on :
(a) silver nitrate solution
(b) magnesium foil
(c) caustic soda solution
(d) zinc carbonate
(e) manganese (IV) oxide
(f) copper oxide
Give balanced equations with conditions, if any, for the following conversions A to D.
A : Sodium Chloride ⟶ Hydrogen Chloride
B : Hydrogen Chloride ⟶ Iron (II) chloride
C : Hydrogen Chloride ⟶ Ammonium chloride
D : Hydrogen Chloride ⟶ Lead chloride.
Write balanced chemical equations for the following :
(a) Sodium thiosulphate is reacted with dilute hydrochloric acid.
(b) Calcium bicarbonate reacts with dilute hydrochloric acid.
(c) Conc. hydrochloric acid reacts with potassium permanganate solution.
(d) Action of dilute hydrochloric acid on sodium sulphide.
(e) Action of hydrochloric acid on sodium bicarbonate.