a. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.355 mol of the first reactant. Cl₂(g) + KI(aq) → I₂ (s) + KCl(aq) mol KI b. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.400 mol of the first reactant. Co(s) + P4(s)→ C03 P2 (s) mol P4 c. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.215 mol of the first reactant. Zn(s) + HNO3(aq) → Zn(NO3)2 (aq) + H₂(g) mol HNO3 d. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.370 mol of the first reactant. C5 H12 (1) + O2(g) → CO₂(g) + H₂O(g) mol O₂

Transcribed Image Text:

a. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.355 mol of the first reactant. Cl₂(g) + KI(aq) → I₂ (s) + KCl(aq) mol KI b. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.400 mol of the first reactant. Co(s) + P4 (8)→ C03 P2 (8) mol P4 c. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.215 mol of the first reactant. Zn(s) + HNO3(aq) → Zn(NO3)2 (aq) + H₂ (9) mol HNO3 d. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.370 mol of the first reactant. C5 H12 (1) + O2(g) → CO2 (g) + H₂O(g) mol O2