Given the following data, answer the remaining questions.

Mass of crucible + cover	______18.500_____
Mass of crucible + cover + Mg	________18.702________
Mass of Mg	________0.202________
Mass of crucible +cover+ oxide product	________18.842____
Mass of oxide product	________0.342________

Finding the remaining parts.

Mass of oxygen in oxide product	________________
Moles of magnesium. (show calculation)	________________
Moles of oxygen. (show calculation)	________________
Empirical formula of oxide product. (Show calculations)	________________

Then answer these questions, please show work.

1. How many grams of nitrogen are in 1.50g of Mg₃N₂?
2. What is the empirical formula of a compound that is made up of 81.68% carbon and 18.32% hydrogen?
3. Upon combustion, a 0.8009 g sample of a compound containing only carbon, hydrogen, and oxygen produces 1.6004g CO₂ and 0.6551g H₂O. Find the empirical formula of the compound.

Here is some information to help.

In this experiment, magnesium metal is heated until it reacts with oxygen in the air according to the following balanced equation:

2Mg(s)+ O2(g) → 2MgO(s)

(silver metal)                  (white-gray ash)

As the magnesium burns in air, it may also combine with nitrogen in air. To remove any nitride product, water is added, and the product is reheated. Any nitride product is converted to magnesium oxide and ammonia.

3Mg(s)+ N2(g) → Mg3N2(s)

Mg3N2(s)+3H2O(l)→3MgO(s)+2NH3(aq)

A weighed amount of the magnesium metal is used, and the mass of the oxide product formed is determined at the end of the experiment. The mass of oxygen that combines with the magnesium is obtained from the difference between the mass of the oxide product and the original mass of magnesium.

mass of oxide product-mass of magnesium=mass of oxygen in oxide product

The empirical formula of the oxide product is determined by calculating the moles of magnesium and the moles of oxygen using their respective molar masses. Dividing the moles of the elements by the smaller number of moles gives the empirical formula.