. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.455 mol of the first reactant. Cl₂ (9)+KI(aq) → 1₂(a) + KCl(aq) mol KI D. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.305 mol of the first reactant. Co(s) + P4 (8)→ CosP₂ (8) mol P4 c. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.220 mol of the first reactant. Zn(s) + HNO3(aq) → Zn(NO₂)2 (aq) + H₂ (9) mol HNO, d. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.225 mol of the first reactant. CHz(l) + Oz(g) → CO,(g)+H_O(,) mol O₂
. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.455 mol of the first reactant. Cl₂ (9)+KI(aq) → 1₂(a) + KCl(aq) mol KI D. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.305 mol of the first reactant. Co(s) + P4 (8)→ CosP₂ (8) mol P4 c. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.220 mol of the first reactant. Zn(s) + HNO3(aq) → Zn(NO₂)2 (aq) + H₂ (9) mol HNO, d. For the following unbalanced equation, indicate how many moles of the second reactant would be required to react with exactly 0.225 mol of the first reactant. CHz(l) + Oz(g) → CO,(g)+H_O(,) mol O₂
Chemistry & Chemical Reactivity
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ISBN:9781337399074
Author:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Publisher:John C. Kotz, Paul M. Treichel, John Townsend, David Treichel
Chapter4: Stoichiometry: Quantitative Information About Chemical Reactions
Section: Chapter Questions
Problem 6PS: The formation of water-Insoluble silver chloride is useful in the analysis of chloride-containing...
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Please answer a to d.
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![a. For the following unbalanced equation, indicate how many moles of the second reactant would be required to
react with exactly 0.455 mol of the first reactant.
Cl₂ (9)+KI(aq) → 1₂(a) + 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 0.305 mol of the first reactant.
Co(s) + P4 (8)→ Cos 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 0.220 mol of the first reactant.
Zn(s) + HNO3(aq) → Zn(NO₂)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 0.225 mol of the first reactant.
CHz(l) + Oz(g) → CO,(g) +H,O(g)
mol O₂](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbc35979e-0df5-4769-9e4a-f903392f3b9d%2Fd200271a-8d48-44e4-af27-f7f0faa174ca%2Fp2sy9oe_processed.jpeg&w=3840&q=75)
Transcribed Image Text:a. For the following unbalanced equation, indicate how many moles of the second reactant would be required to
react with exactly 0.455 mol of the first reactant.
Cl₂ (9)+KI(aq) → 1₂(a) + 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 0.305 mol of the first reactant.
Co(s) + P4 (8)→ Cos 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 0.220 mol of the first reactant.
Zn(s) + HNO3(aq) → Zn(NO₂)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 0.225 mol of the first reactant.
CHz(l) + Oz(g) → CO,(g) +H,O(g)
mol O₂
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