Calculate the mass of potassium
chlorate required to liberate 6.72 dm' of
oxygen at STP. Molar mass of KCIO, is
122.5 g mol-1.
Answers
Answer:
hii answer is
Explanation:
Heat
2KClO
3
Heat
2KCl+3O
2
The mole ratio for the reaction is 2:2:1 meaning, two moles of KClO
3
yields 2 moles of KCl and 3 moles of O
2
Calculate the moles of oxygen from the 6.72 dm
3
given
1 dm
3
=1 liter
6.72 dm
3
=6.72 liters of oxygen
Using the ideal gas law, which states that 1 mole of an ideal gas occupies 22.4 liters by volume we can calculate the moles of oxygen as follows:
If 22.4 liters = 1 mole
Then 6.72 liters = 1 × 6.72/ 22.4
= 0.3 moles
From the equation above we found the mole ratio for the equation to be 2:2:1
That means, for 0.3 moles of oxygen to be liberated, we will need 0.3 × 2 = 0.6 moles of KClO
3
Use the 0.6 moles of KClO₃ to find the mass required
Moles = mass / molar mass
Then,
mass = molar mass × moles
molar mass of potassium chlorate is 122.5 g/mol (given) and moles is 0.6(calculated)
Therefore mass of KClO
3
required = 122.5 g/mol x 0.6 moles
= 73.5 g
Therefore you need 73.5 g of potassium chlorate to liberate 6.72 dm
3
of oxygen.