If 5.10 g of sodium and 305 g of potassium nitrate react in an airbag, how many grams of kno3 remain because of the limited amount of sodium present? 10na (s) 2kno3 (s) k2o (s) 5na2o (s) n2 (g)

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Pittman

Chemistry

8 October, 08:36

If 5.10 g of sodium and 305 g of potassium nitrate react in an airbag, how many grams of kno3 remain because of the limited amount of sodium present? 10na (s) 2kno3 (s) k2o (s) 5na2o (s) n2 (g)

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Tristian Randolph · Answer 1

The balanced equation for the above reaction is as follows;

10Na (s) + 2KNO ₃ (s) - - > K₂O (s) + 5Na₂O (s) + N₂ (g)

Stoichiometry of Na to KNO ₃ is 10 : 2

Number of Na moles reacted - 5.1 g / 23 g/mol = 0.22 mol

Na is the limiting reactant, therefore Na is fully used up, Since KNO₃ is present in excess, at the end of the reaction a certain amount of KNO₃ will be remaining.

10 mol of Na reacts with 2 mol of KNO₃

Therefore 0.22 mol of Na reacts with - 2 / 10 x 0.22 = 0.044 mol of KNO₃

Mass of KNO₃ reacted = 0.044 mol x 101.1 g/mol = 4.45 g

Mass of KNO₃ present initially - 305 g

Therefore remaining mass of KNO₃ - 305 - 4.45 = 300.55 g