Open Question
Determine the pH of each solution. a. 0.0100 M HClO4 b. 0.115 M HClO2 c. 0.045 M Sr(OH)2 d. 0.0852 M KCN e. 0.155 M NH4Cl
Ch.16 - Acids and Bases
Chapter 16, Problem 140a,b,c,e
Determine the pH of each two-component solution. a. 0.050 M KOH and 0.015 M Ba(OH)2 b. 0.265 M NH4NO3 and 0.102 M HCN c. 0.075 M RbOH and 0.100 M NaHCO3 e. 0.115 M NaClO and 0.0500 M KI
Verified step by step guidance1
Step 1: Identify the nature of each component in the solution. For example, KOH and Ba(OH)_2 are strong bases, NH_4NO_3 is a salt of a weak base (NH_3) and a strong acid (HNO_3), HCN is a weak acid, RbOH is a strong base, NaHCO_3 is a weak base, NaClO is a salt of a weak acid (HClO) and a strong base (NaOH), and KI is a neutral salt.
Step 2: For solutions containing strong bases (like KOH and Ba(OH)_2), calculate the total hydroxide ion concentration by adding the contributions from each base. Remember that Ba(OH)_2 dissociates to give two OH^- ions per formula unit.
Step 3: For solutions containing weak acids and their salts (like NH_4NO_3 and HCN), use the Henderson-Hasselbalch equation to find the pH. Calculate the pKa of HCN and use the concentrations of NH_4^+ and HCN to find the pH.
Step 4: For solutions containing a strong base and a weak base (like RbOH and NaHCO_3), determine the dominant species affecting the pH. Since RbOH is a strong base, it will dominate the pH calculation. Calculate the pH based on the concentration of OH^- from RbOH.
Step 5: For solutions containing salts of weak acids (like NaClO and KI), consider the hydrolysis of the anion from the weak acid (ClO^-). Use the Kb of ClO^- to calculate the pH, considering that KI does not affect the pH as it is a neutral salt.
Related Practice
Open Question
Determine the pH of each solution. a. 0.0650 M HNO3 b. 0.150 M HNO2 c. 0.0195 M KOH d. 0.245 M CH3NH3I e. 0.318 M KC6H5O
Open Question
Determine the pH of each two-component solution. a. 0.0550 M in HI and 0.00850 M in HF b. 0.112 M in NaCl and 0.0953 M in KF c. 0.132 M in NH4Cl and 0.150 M HNO3 d. 0.0887 M in sodium benzoate and 0.225 M in potassium bromide e. 0.0450 M in HCl and 0.0225 M in HNO3
Textbook Question
Determine the pH of each two-component solution. d. 0.088 M HClO4 and 0.022 M KOH
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Textbook Question
Write net ionic equations for the reactions that take place when aqueous solutions of the following substances are mixed: a. sodium cyanide and nitric acid b. ammonium chloride and sodium hydroxide c. sodium cyanide and ammonium bromide d. potassium hydrogen sulfate and lithium acetate e. sodium hypochlorite and ammonia
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Textbook Question
Morphine has the formula C17H19NO3. It is a base and accepts one proton per molecule. It is isolated from opium. A 0.682-g sample of opium is found to require 8.92 mL of a 0.0116 M solution of sulfuric acid for neutralization. Assuming that morphine is the only acid or base present in opium, calculate the percent morphine in the sample of opium.
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