3. Classify each species as either a Lewis acid or a Lewis base. a. Fe3+ C. BH3 b. NH3 d. F

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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Russell, Peter J_H...
2.
Write net ionic equations for the reactions that take place when aqueous solutions of the following
substances mixed?
Sodium cyanide and nitric acid.
b. Ammonium chloride and sodium hydroxide.
a.
C.
Potassium hydrogen sulfate and lithium acetate.
d.
Sodium hypochlorite and ammonia.
3. Classify each species as either a Lewis acid or a Lewis base.
a. Fe3+
C. BH3
b. NH3
d. F
A. Based on their molecular structure, pick the stronger acid from each pair of binary acids. Explain your
choice.
a.
HF and HCI
b. H20 and HF
c. H2Se and H2S
5. The binding of oxygen by hemoglobin in the blood involves the equilibrium reaction:
HbH*(aq) + 02 (aq) → Hb0, (aq) + H* (aq)
In this equation, Hb is hemoglobin. The pH of normal human blood is highly controlled within a range of 7.35 to
5. Given the above equilibrium, why is this important? What would happen to the oxygen-carrying capacity of
noglobin I blood became too acidic (a dangerous condition known as acidosis)?
Transcribed Image Text:Russell, Peter J_H... 2. Write net ionic equations for the reactions that take place when aqueous solutions of the following substances mixed? Sodium cyanide and nitric acid. b. Ammonium chloride and sodium hydroxide. a. C. Potassium hydrogen sulfate and lithium acetate. d. Sodium hypochlorite and ammonia. 3. Classify each species as either a Lewis acid or a Lewis base. a. Fe3+ C. BH3 b. NH3 d. F A. Based on their molecular structure, pick the stronger acid from each pair of binary acids. Explain your choice. a. HF and HCI b. H20 and HF c. H2Se and H2S 5. The binding of oxygen by hemoglobin in the blood involves the equilibrium reaction: HbH*(aq) + 02 (aq) → Hb0, (aq) + H* (aq) In this equation, Hb is hemoglobin. The pH of normal human blood is highly controlled within a range of 7.35 to 5. Given the above equilibrium, why is this important? What would happen to the oxygen-carrying capacity of noglobin I blood became too acidic (a dangerous condition known as acidosis)?
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