Five grams of `KCIO_(3)` yield `3.041 g` of `KCI` and `1.36 L` of oxygen at standard temperature and pressure. Show that these figures support the law of conservation of mass within limits of `+- 0.4 %` error.

In an experiment 5.0 g of CaCO_(3) on heating gave 2.8 g of CaO and 2.2 g of CO_(2) . Show that these results are in accordance to the law of conservation of mass.

3 g of ethane C_(2)H_(6) on complete combustion gave 8.8 g of CO_(2) and 5.4 g of water. Show that the results are in accordance with the law of conservation of mass.

0.22 g of a hydrogen (i.e., a compound conatining carbon and hydrogen only) on complete combustion with oxygen gave 0.9 g water and 0.44 g carbon dioxide. Show that these results are in accordance with the law of conservation of mass (atomic mass of C = 12, H = 1, O = 16) .

Estimate the speed of sound in air at standard temperature and pressure. The mass of 1 mole of air is 29.0xx10^(-3)kg , lambda for air =7//5 .

Law of conservation of mass: When 4.2 g of sodioum hydrogen carbone (NaHCO_(3)) is added to a solution of acertc aacid (CH_(3) COOH) weighting 10.0 g then 2.2 g of carbon diosxed (CO_(2)) is released into the atmosphere and the residue ledft weighs 12.0 g . Show that these observation are in agreement with the law of conservation of mass. Strategy: Find the sum total of mass of recants before the reaction and sum total of mass of products after the reaction.

1.80g of a certain metal burnt in oxygen gave 3.0g of its oxide 1.50g of the same metal heated in steam gave 2.50g of its oxide. Show that these illustrate the law of constant proportion .

40 cm^(3) of methane are mixed with 100 cm^(3) of pure oxygen at room temperature and pressure. The mixture is then ignited when it burns as illustrated by the equation. Calculate the composition of the resulting mixture if it cooled to initial room temperature and pressure. [CH_(4)(g) + 2O_(2)(g) to CO_(2)(g) + 2H_(2)O(l)]

10.0 g of CaCO_(3) on heating gave 4.4 g of CO_(2) and x g of CaO. Applying law of conservation of mass calculate the mass of CaO.

10.0 g of CaCO_(3) on heating gave 4.4 g of CO_(2) and x g of CaO. Applying law of conservation of mass calculate the mass of CaO.

4.8 g of oxygen and 3.4 g of hydrogen are placed in 1.12 litre flask at 0^∘C . Find the total pressure in atm of the gas mixture.