Answer :
P4O10 + 6PCl5 --> 10 POCl3
That equation is balances (same number of atoms of each element on the left than on the right).
1) Writhe the stechiometric proportions:
1 mol P4O10 : 6mol PCl5 : 10 mol POCl3
2) Calculate the molar masses of each compound (using the aomic masses of the elements)
molar mass of P4O10 = 4*31g/mol + 10*16g/mol = 284 g/mol
molar mass of PCl5 = 31g/mol * 5*35.5 g/mol = 173 g/mol
molar mass of POCl3 = 31 g/mol + 16g/mol + 3*35.5g/mol = 153.5 g/mol
3) Pass the information in grams to mol by dividing grams / molar mass
225.0 g P4O10 / 284 g/mol = 0.792 mol P4O10
675.0 g PCl5 / 173 g/mol = 3.902 mol PCl5
4) Find the limitant reagent
ratio 3.902 mol PCl5 / 0.792 mol P4O10 = 4.93
4.93 < 6/1 which is the theoretical ratio, then there is less PCl5 and it will be consumed before ending the P4O10.
5) Use the # of moles of the limitan reagent to find the # of moles of the product, using the theoretical proportions
[10 mol POCl3 / 6mol PCl5 ] * 3.902 mol PCl5 =6.50 mol POCl3
6) Pass the number of moles of POCl3 to grams, using its molar mass
6.50 mol POCl3 * 153.5 g/mol = 997.8 grams
Answer: 997.8 g
That equation is balances (same number of atoms of each element on the left than on the right).
1) Writhe the stechiometric proportions:
1 mol P4O10 : 6mol PCl5 : 10 mol POCl3
2) Calculate the molar masses of each compound (using the aomic masses of the elements)
molar mass of P4O10 = 4*31g/mol + 10*16g/mol = 284 g/mol
molar mass of PCl5 = 31g/mol * 5*35.5 g/mol = 173 g/mol
molar mass of POCl3 = 31 g/mol + 16g/mol + 3*35.5g/mol = 153.5 g/mol
3) Pass the information in grams to mol by dividing grams / molar mass
225.0 g P4O10 / 284 g/mol = 0.792 mol P4O10
675.0 g PCl5 / 173 g/mol = 3.902 mol PCl5
4) Find the limitant reagent
ratio 3.902 mol PCl5 / 0.792 mol P4O10 = 4.93
4.93 < 6/1 which is the theoretical ratio, then there is less PCl5 and it will be consumed before ending the P4O10.
5) Use the # of moles of the limitan reagent to find the # of moles of the product, using the theoretical proportions
[10 mol POCl3 / 6mol PCl5 ] * 3.902 mol PCl5 =6.50 mol POCl3
6) Pass the number of moles of POCl3 to grams, using its molar mass
6.50 mol POCl3 * 153.5 g/mol = 997.8 grams
Answer: 997.8 g