5. Consider the balanced chemical equation 4Al(s)+30,(g)→2A1,O,(s) a. What mole ratio would you use to calculate how many moles of oxygen gas would be needed to react completely with a given number of moles of aluminum metal? b. What mole ratio would you use to calculate the number of moles of product that would be expected if a given number of moles of aluminum metal reacts completely? 6. According to the following balanced equation, calculate the moles of hydrogen produced from 52.6 moles of iron. 3H,SO, (aq)+2Fe(s)→ Fe, (SO,),(aq)+3H,(g) 7. According to the following balanced equation, calculate the mass of needed SİCI4 to produce 3.14 g of HCI. SİCI, (1) +2H,O(1) → SiO,(s)+4HCI(g) 8. Using the unbalanced equation below calculate the theoretical yield of lead (II) carbonate when 1.25 g of lead (II) acetate is treated with carbon dioxide. Pb(C,H,O,), (aq)+H,0(1)+CO,(g)→PbCO,(s)+HC,H,0,(aq) 9. According to his prelab theoretical yield calculations, a student's experiment should have produced 1.44 g of magnesium oxide. When he weighed his product after reaction, only 1.23 g of magnesium oxide was present. What was his percent yield?

Can you shown me how to solve 5,6,7,8 and 9

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5. Consider the balanced chemical equation 4Al(s)+30,(g)→2A1,0,(s) a. What mole ratio would you use to calculate how many moles of oxygen gas would be needed to react completely with a given number of moles of aluminum metal? b. What mole ratio would you use to calculate the number of moles of product that would be expected if a given number of moles of aluminum metal reacts completely? 6. According to the following balanced equation, calculate the moles of hydrogen produced from 52.6 moles of iron. 3H,SO,(aq)+2Fe(s)→ Fe, (SO,),(aq)+3H,(g) 7. According to the following balanced equation, calculate the mass of needed SiCl4 to produce 3.14 g of HCl. SICI, (1) + 2H,0(1) → SiO,(s) +4HCI(g) 8. Using the unbalanced equation below calculate the theoretical yield of lead (II) carbonate when 1.25 g of lead (II) acetate is treated with carbon dioxide. Pb(C,H,O,), (aq)+H,0(1)+CO,(g)→P6CO,(8)+HC,H,O,(aq) 9. According to his prelab theoretical yield calculations, a student's experiment should have produced 1.44 g of magnesium oxide. When he weighed his product after reaction, only 1.23 g of magnesium oxide was present. What was his percent yield?