Chemistry
From the equation:
C + 2H2SO4 ⟶ CO2 + 2H2O + 2SO2
Calculate:
(i) The mass of carbon oxidized by 49 g of sulphuric acid.
(ii) The volume of sulphur dioxide measured at STP, liberated at the same time.
Mole Concept
40 Likes
Answer
(i) 196 g of sulphuric acid oxidizes 12 g carbon
∴ 49 g of sulphuric acid will oxidize = x 49 = 3 g
Hence, 3 g of carbon is oxidized.
(ii) 12 g carbon liberates 2 vol = (2 x 22.4) lit of SO2
∴ 3 g of carbon will liberate x 3 = 11.2 lit of SO2.
Hence, 11.2 lit of SO2 is liberated.
Answered By
11 Likes
Related Questions
Following questions refer to one mole of chlorine gas.
(a) What is the volume occupied by this gas at S.T.P.?
(b) What will happen to the volume of gas, if pressure is doubled?
(c) What volume will it occupy at 273°C?
(d) If the relative atomic mass of chlorine is 35.5, what will be the mass of 1 mole of chlorine gas?
A compound A consists of 4.8% carbon and 95.2% bromine by mass. Its vapour density is 252. Find its :
(i) empirical formula
(ii) molecular formula
(i) A compound has the following percentage composition by mass: carbon 14.4%, hydrogen 1.2% and chlorine 84.5%. Determine the empirical formula of this compound. Work correct to 1 decimal place. (H = 1; C = 12; Cl = 35.5)
(ii) The relative molecular mass of this compound is 168, so what is its molecular formula?
Oxygen oxidises ethyne to carbon dioxide and water as shown by the equation:
2C2H2 + 5O2 ⟶ 4CO2 + 2H2O
What volume of ethyne gas at s.t.p. is required to produce 8.4 dm3 of carbon dioxide at STP ? [H = 1, C = 12, 0 = 16]