Respuesta :
Reaction between mercury (ii) sulfide with Calcium oxide is as shown;
4 HgS +4 CaO = 4 Hg + 3 CaS + CaSO4
The molar mass of HgS is 232.66 g/mol
The number of moles = 31.28/232.66
= 0.1344 moles
The mole ratio of HgS : CaO is 1: 1
Therefore, the number of moles of Calcium oxide is 0.1344 moles
1 mole of CaO Contains 56 g/mol
Thus, the mass of CaO is 56 g/mol
= 0.1344 moles × 56 g/mol
= 7.5264 g
4 HgS +4 CaO = 4 Hg + 3 CaS + CaSO4
The molar mass of HgS is 232.66 g/mol
The number of moles = 31.28/232.66
= 0.1344 moles
The mole ratio of HgS : CaO is 1: 1
Therefore, the number of moles of Calcium oxide is 0.1344 moles
1 mole of CaO Contains 56 g/mol
Thus, the mass of CaO is 56 g/mol
= 0.1344 moles × 56 g/mol
= 7.5264 g
Answer:
[tex]8.75~g~CaO[/tex]
Explanation:
First we have to start with the reaction:
[tex]HgS~+~CaO~->~Hg~+~CaS~+~CaSO_4[/tex]
The next step is to balance the reaction, we can start with Oxygen, so:
[tex]HgS~+~4CaO~->~Hg~+~CaS~+~CaSO_4[/tex]
Then we can continue with Ca:
[tex]HgS~+~4CaO~->~Hg~+~3CaS~+~CaSO_4[/tex]
Then we can balance S:
[tex]4HgS~+~4CaO~->~Hg~+~3CaS~+~CaSO_4[/tex]
And finally with Hg:
[tex]4HgS~+~4CaO~->~4Hg~+~3CaS~+~CaSO_4[/tex]
With the balance reaction we know that the molar ratio between Hg nd CaO is 4:4. Therefore, the nex step is the conversion of 31.28 g Hg to moles of Hg using the atomic mass of Hg (200.59 g/mol).
[tex]31.28~g~Hg\frac{1~mol~Hg}{200.59~g~Hg}[/tex]
[tex]0.156~mol~Hg[/tex]
The next step, using the molar ratio (4:4) and the molar mass of CaO (56.1 g/mol) we can calculate the grams of CaO that we need:
[tex]0.156~mol~Hg\frac{4~mol~CaO}{4~mol~Hg}\frac{56.1~g~CaO}{1~mol~CaO}[/tex]
[tex]8.75~g~CaO[/tex]
