Calculate the mass of lead chloride formed by treating an aqueous solution 13.24 g of lead nitrate with excess of hydrochloric acid.
(Pb = 207, Cl = 35.5, H = 1, O = 16)

Calculate the mass of copper nitrate obtained by treating 6.4 g of copper with excess of concentrated nitric acid. (Cu = 64,. N = 14, O = 16)

What mass of silver chloride will be obtained by adding an excess of hydrochloric acid to a solution of 0.68 g of silver nitrate? (Cl = 35.5, Ag = 108, N = 14,O = 16).

Calculate the mass of urea ( NH_2CONH_2 ) required in making 1.5kg of 0.35 molal aqueous solution.

Write equation for the reactions of aqueous hydrochloric acid on : lead nitrate solution.

Calculate the mass of potassium chlorate which will produce 24 g of oxygen on complete decomposition. Also calculate the mass of potassium chloride formed. (K = 39, O = 16)

Calculate the mass of Mg (atomic mass = 24 g'mol) that combines with 1.5 mol of O_2 to form magnesium oxide (MgO)

Calculate the mole fraction of water in a sodium hydroxide solution which has 80 g of NaOH and 54g of H_(2)O . [Relative atomic masses : Na = 23, O = 16, H = 1]

Write a balanced chemical equation for each of the following reactions and also classify them. (a) Lead acetate solution is treated with dilute hydrochloric acid to form lead chloride and acetic acid solution. (b) A piece of sodium metal is added to absolute ethanol to form sodim ethoxide and hydrogen gas. (c) Iron (III) oxide on heating with carbon monoxide gas reacts to form solid iron and liberates carbon dioxide gas. (d) Hydrogen sulphide gas reacts with oxygen gas to form solid sulphur and liquid water.

A solution containing 1g of sodium chloride in 100g of water freezes at - 0.604^@C . Calculate the degree of dissociation of sodium chloride. (Na = 23, Cl = 35.5, Kf for water = 1.87 k "mol"^(-1) )

20g of impure NACI smaple is added aqueous solution having excess AGNO_(3)AgCI precipitate is filtered [Atomic mass Ag = 108, CI = 35.5] .