13. For each of the following balanced chemical equations, calcu- late how many grams of the product(s) would be produced by complete reaction of 0.125 mole of the first reactant. a. ARNO,(aq) + LIOH(aq) → AgOH(s) + LINO,(aq) b. Al;(SO,)(aq) + 3CAC1;(aq)2AICI,(aq) + 3CASO.) c. CaCO,(s) + 2HCI(aq)CaCl;(aq) + CO;(g) + H;O(1)

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13. For each of the following balanced chemical equations, calcu- late how many grams of the product(s) would be produced by complete reaction of 0.125 mole of the first reactant. a. AGNO,(aq) + LIOH(aq) → AgOH(s) + LINO,(aq) b. Al;(SO)(aq) + 3CAC1;(aq)→2AICI,(aq) + 3CASO.) c. CaCO3(s) + 2HCI(aq)→CACI(aq) + CO,(g) + H;0(1) d. 2CH10(8) + 130;(g)→8CO;(g) + 10H,0(g) 14. For each of the following balanced chemical equations, calcu- late how many moles and how many grams of each product would be produced by the complete conversion of 0.50 mole of the reactant indicated in boldface. State clearly the mole ratio used for each conversion. a. NH3(g) + HCI(g)→ NH,Cl(s) b. CH,(g) + 4S(s) CS2(1) + 2H,S(g) c. PCI3(1) + 3H,O(1) → H,PO;(aq) + 3HCI(aq) d. NaOH(s) + CO:(g)NaHCO;(s) 15. For each of the following unbalanced equations, indicate how many moles of the second reactant would be required to react exactly with 0.275 mole of the first reactant. State clearly the mole ratio used for the conversion. a. Cl(g) + KI(aq) I(s) + KCI(aq) b. Co(s) + Pa(s)Co,P2(s) c. Zn(s) + HNO3(aq)ZNNO3(aq) + H2(g) d. CH12(1) + O:(g)→CO (g) + H;O(g) 16. For each of the following unbalanced equations, indicate how many moles of the first product are produced if 0.625 mole of the second product forms. State clearly the mole ratio used for each conversion.