acids, bases and salts unit plan - school district 67 ...sd67.bc.ca/teachers/barcuri/chem12/unit...
TRANSCRIPT
Acids, Bases and Salts Unit Plan Period/Topic Worksheets Quiz
1. Properties of Acids, Bases & Salts WS 1
2. Arrhenius, Bronsted Acids, Ka and Strength. WS 2 1
3. Arrhenius, Bronsted Bases, Kb and Strength WS 3
4. Acid & Base Reactions. Amphiprotic. Acid Chart. WS 4 2
5. Leveling effect, Anhydrides and Relationships. WS 5
6. Hydrolysis of Salts. Quiz. WS 6 3
7. Acid, Base & Salt Reactions. Hydrolysis. WS 7
8. Yamada’s Indicator Lab. Hydrolysis. WS 8 4
9. Ionization of Water, [H+] & [OH-], pH scale. WS 9
10. pH Calculations for Weak Acids. WS 10 5
11. Ka from pH for Weak Acids. WS 11
12. Indicators Lab.
13. Kbs from Kas for Weak Bases. WS 12 6
14. pH for Weak Bases pH [H+] [OH-] Relationships. WS 13
15. Amphiprotic Ions- Kas and Kbs. WS 14 7
16. Titration Lab. Primary Standards. Acids Midterm Practice Test
17. Titration Lab
18. Buffers & Indicators WS 15 8
19. Titration Curves. WS 16 9/10
20. Review # 1 Web Site Review Practice Test 1
21. Review # 2 Practice Test 2
22. Test
Worksheet # 1 Properties of Acids and Bases 1. Add 1 drop of each solution to 1 drop of the acid-base indicator in a spot plate. Record the colour
in the data table below. Describe each solution as an acid or base in the space provided. Write the acid colour and base colour in the table below.
Indicator Phenolphthalein Litmus BromothymolBlue Acid/Base
Solution HCl NaOH Vinegar Ammonia (NH3) Lemon Juice Seven-up Baking Soda (NaHCO3) Indicator Acid Colour Base Colour Phenolphthalein Litmus Bromothymol Blue Wash and dry your spot plate before going on to step 2. 2. Wear safety goggles for this experiment. Pour approximately 50 mL of 1 M HCl into a fleaker.
Add one level spoonful of Ca and cover with a plastic funnel. After 1 minute and not before light the top of the funnel using a match. Write the equation for the reaction below.
Wash and dry your fleaker before going on to step 3.3. Taste a lemon and describe the taste in one word 4. Taste some baking soda and describe the taste in one word. 6. Test two drops of HCl for conductivity in a spot plate. Result:
Write an equation that accounts for the conductivity of HCl.
7. Test two drops of NaOH for conductivity in a spot plate. Result: Write an equation that accounts for the conductivity of NaOH (dissociation).
Clean, dry and put away the spot plate 8. List five properties of acids that are in your textbook. 9. List five properties of bases that are in your textbook. 10. Make some notes on the commercial acids: HCl and H2SO4 .
HCl
H2SO4
11. Make some notes on the commercial base NaOH. 12. Describe the difference between a concentrated and dilute acid (hint: concentration refers to the
molarity). Describe their relative conductivities. 13. Describe the difference between a strong and weak acid. Use two examples and write equations to
support your answer. Describe their relative conductivities. 14. Describe a situation where a strong acid would have the same conductivity as a weak acid (hint:
think about concentration).
Worksheet # 2 Conjugate Acid-Base Pairs
Complete each acid reaction. Label each reactant and product as an acid or base. The first on is done for you. 1. HCN + H2O ⇄ H3O+ + CN-
Acid Base Acid Base 2. H3C6O7 + H2O ⇄
3. H3PO4 + H2O ⇄ 4. HF + H2O ⇄ 5. H2CO3 + H2O ⇄ 6. NH4
+ + H2O ⇄ 7. CH3COOH + H2O ⇄
8. HCl + H2O ⇄ 9. HNO3 + H2O ⇄ Write the equilibrium expression (Ka) for the first seven above reactions. The first one is done for you. 10. Ka = [H3O + ][CN - ] 14. Ka =
[HCN] 11. Ka = 15. Ka = 12. Ka = 16. Ka = 13. Ka =
17. Which acids are strong? 18. What does the term strong acid mean? 19. Why is it impossible to write an equilibrium expression for a strong acid? 20. Which acids are weak? 23. What does the term weak acid mean? 24. Explain the difference between a strong and weak acid in terms of electrical conductivity.
Acid Conjugate Base Base Conjugate Acid 14. HNO2 15. HCOO- 16. HSO3
- 17. IO3-
18. H2O2 19. NH3 20. HS- 21. CH3COO- 22. H2O 23. H2O Define: 22. Bronsted acid- 23. Bronsted base- 24. Arrhenius acid- 25. Arrhenius base- 26. List the six strong acids. 27. Rank the acids in order of decreasing strength. HCl H2S H3PO4 H2CO3 HF HSO4
28. What would you rather drink vinegar or hydrochloric acid? Explain.
Making a Universal Indicator Lab Activity Mix the following indicators in a 50 mL beaker. Stir with an eyedropper.
Yamada’s Universal Indicator
5 drops thymol blue
6 drops methyl orange5 drops phenolphthalein
10 drops bromothymol blue20 drops of water
Part 1. In a spot plate add two drops of each buffer solution to a cell. Add one drop of Yamada’s indicator to each. Record each colour on another lab sheet by colouring the cell the same colour. Make sure you are accurate because you will use this information for future labs and projects.
pH = 1 pH = 3 pH = 5 pH = 7 pH = 9 pH =11 pH = 13
<---------- Acid Strength Increases ------ Neutral ----Base Strength Increases ------->
Part 2. Test a drop of HCl, CH3COOH, NaOH, NH3, NaHCO3, H2CO3 and NaCl solution for conductivity. Test with your Universal Indicator. Record the pH of each. Test with your Universal Indicator. Explain your results with what you know about acids and bases. Classify each as a strong or weak acid or base or neutral, acidic, or basic salt. Write an equation for each to show how they ionize in water using the Bronsted (Chemistry 12) definition of an acid. Wash and dry your chem plateWash and return your eyedropper.Wash and return your beaker.Wash your hands.
Results
Compound Conductivity pH Classification HCl CH3COOH NaOH NH3 NaHCO3 H2CO3 NaCl
Worksheet # 3 Conjugate Acid-Base Pairs Complete each reaction. Label each reactant and product as an acid or base.
1. HCN + H2O ⇄ H3O+ + CN-
Acid Base Acid Base
2. HCl + H2O ⇄
3. HF + H2O ⇄
4. F- + H2O ⇄
5. HSO4- + H2O ⇄
(acid)
6. NH4+ + H2O ⇄
7. HPO42- + H2O ⇄
(base)
Acid Conjugate Base Base Conjugate Acid 8. HCO3
- CO32- 9. CH3COO- CH3COOH
10. HPO42- 11. IO3
- 12. H2O 13. NH2
- 14. HS- 15. C2H5SO7
3- 16. Circle the strong bases.
Fe(OH)3 NaOH CsOH KOHZn(OH)2 Sr(OH)2 Ba(OH)2 Ca(OH)2
17. Rank the following acids from strongest to weakest.
H2S CH3COOH H2PO4- HI HCl HF
18. Rank the following bases from the strongest to weakest.
H2O F- NH3 SO32- HSO3
- NaOH
19. i) Write the reaction of H3BO3 with water (remove one H+ only because it is a weak acid).
ii) Write the Ka expression for the above. iii) What is the ionization constant for the acid (use your table). Ka =
20. List six strong acids. 21. List six strong bases. 22. List six weak acids in order of decreasing strength (use your acid/base table). 23. List six weak bases in order of decreasing strength (use your acid/base table). Worksheet # 4 Using Acid Strength Tables
Acid-base reactions can be considered to be a competition for protons. A stronger acid can cause a weaker acid to act like a base. Label the acids and bases. Complete the reaction. State if the reactants or products are favoured.
1. HSO4
- + HPO42- ⇄
2. HCN + H2O ⇄ 3. HCO3
- + H2S ⇄ 4. HPO4
2- + NH4+ ⇄
5. NH3 + H2O ⇄ 6. H2PO4
1- + NH3 ⇄
7. HCO3- + HF ⇄
8. Complete each equation and indicate if reactants or products are favoured. Label each acid or base.
HSO4- + HCO3
- ⇄
H2PO4- + HC03
- ⇄
HS03- + HPO4
2- ⇄
NH3 + HC2O4-⇄
9. Explain why HF(aq) is a better conductor than HCN(aq).
10. Which is a stronger acid in water, HCl or HI? Explain! 11. State the important ion produced by an acid and a base. 12. Which is the stronger base? Which produces the least OH-? F- or CO3
-2
13. Define a Bronsted/Lowry acid and base. 14. Define an Arrhenius acid and base. 15. Complete each reaction and write the equilibrium expression.
HF + H2O ⇄ Ka= F- + H2O ⇄ Kb=
16. H2SO4 + NaOH → 17. Define conjugate pairs.
18. Give conjugate acids for: HS-, NH3, HPO4-2, OH-, H2O, NH3, CO3
-2
19. Give conjugate bases for: NH4
+, HF, H2PO4-, H3O+, OH-, HCO3
-, H2O Worksheet # 5 Acid and Basic Anhydrides 1. What is the strongest acid that can exist in water? Write an equation to show how a stronger acid
would be reduced in strength by the leveling effect of water. 2. What is the strongest base that can exist in water? Write an equation to show how a stronger base
would be reduced in strength by the leveling effect of water. 3. List three strong acids and three strong bases. 4. Rank the acids in decreasing strength:
HClO4 Ka is very large HClO3 Ka=1.2x10-2
HClO2 Ka=8.0x10-5 HClO Ka=4.4x10-8
5. For an oxy acid what is the relationship between the number of O’s and
acid strength? (Compare H2S04 and H2S03) 6. Which acid is stronger? HI03 or HIO2 7. Which produces more H30+? H2CO3 or HS04
-
8. Which produces more OH-? F- or HC03-
9. Which conducts better NH3 or NaOH (both .1M)? Why? 10. Which conducts better HF or HCN (both .1M)? Why? 11. Compare and contrast a strong and weak acid in terms of degree of ionization, size of ka,
conductivity, and concentration of H+.
Classify each formula as an acid anhydride, basic anhydride, strong acid, weak acid, strong, or weak base. For each formula write an equation to show how it reacts with water. For anhydrides write two equations. Formula Classification Reaction 12. Na2O
13. CaO
14. SO3
15. CO2
16. SO2
17. HCl 18. NH3
19. NaOH 20. HF
21. H3PO4
Worksheet # 6 Hydrolysis of Salts and Reactions of Acids and Bases Describe each as an acid, base, neutral salt, acidic salt, or basic salt. For each salt write a parent acid-base
formation equation, dissociation equation, and hydrolysis equation (only for acidic and basic salts). For
acids and bases write an equation to show how each reacts with water.
1. NH3
2. KCl
3. HNO3
4. NaHCO3
5. RbOH
6. AlCl3
7. H2C2O4
8. NaC6H5O
9. Co(NO3)3
10. Na2CO3
Worksheet # 7 Hydrolysis of Salts and Reactions of Acids and Bases Describe each as an acid, base, neutral salt, acidic salt, or basic salt. For each salt write a dissociation
equation and hydrolysis equation (only for acidic and basic salts). For acids and bases write an equation to
show how each reacts with water.
1. NH3
2. NaCl
3. HCl
4. NaCN
5. NaOH
6. FeCl3
7. HF
8. LiHCO3
9. Fe(NO3)3
10. MgCO3
11. H2S
12. HF
13. CaI2
14. Mg(OH)2
15. Ba(OH)2
16. Describe why Tums (CaCO3) neutralizes stomach acid. 17. Describe why Mg(OH)2 is used in Milk of Magnesia as an antacid instead of NaOH.
Worksheet # 8 Yamada’s Indicator Activity
Acid, Base and Salt Lab
Purpose:
1) To use Yamada’s Indicator to determine the pH of various acids, bases and salts. 2) To classify compounds as strong acids, weak acids, strong bases, weak bases, neutral salts, acid
anhydrides, and basic anhydrides.3) To write reactions for each compound to show how each ionizes, hydrolyzes or reacts with water.
Procedure:
1) To a cell in a spot plate add one drop of solution or a very tiny amount of solid. Write the formula of the compound in the data table.
2) Add two drops of Yamada’s Indicator. Record the pH of the compound.3) Classify the compound as a strong acid, weak acid, strong base, weak base, neutral salt, acid
anhydride, or basic anhydride. Use the formula of the compound as well as the pH.4) Write an equation to show the reaction of anhydrides with water, the hydrolysis of salts, or the
ionization of acids or bases.
Data 1. Formula of compound
pH Classification
Reaction or reactions
2. Formula of compound
pH Classification
Reaction or reactions
3. Formula of compound
pH Classification
Reaction or reactions
4. Formula of compound
pH Classification
Reaction or reactions
5. Formula of compound
pH Classification
Reaction or reactions
6. Formula of compound
pH Classification
Reaction or reactions
7. Formula of compound
pH Classification
Reaction or reactions
8. Formula of compound
pH Classification
Reaction or reactions
9. Formula of compound
pH Classification
Reaction or reactions
10. Formula of compound
pH Classification
Reaction or reactions
11. Formula of compound
pH Classification
Reaction or reactions
12. Formula of compound
pH Classification
Reaction or reactions
13. Formula of compound
pH Classification
Reaction or reactions
14. Formula of compound
pH Classification
Reaction or reactions
15. Formula of compound
pH Classification
Reaction or reactions
16. Formula of compound
pH Classification
Reaction or reactions
17. Formula of compound
pH Classification
Reaction or reactions
Worksheet # 9 pH and pOH Calculations Complete the chart:
[H+] [OH-] pH pOH Acid/base/neutral1. 7.00 x 10-3 M 2. 8.75 x 10-2 M 3. 7.33 4. 4.00 5. Neutral (2 sig
figs)6. 10.7 7. 2.553 8. 5.0 x 10-10 M 9. 4.7 x 10-10 M
10. Calculate the [H+], [OH-], pH and pOH for a 0.20 M Ba(OH)2 solution.
11. Calculate the [H+], [OH-], pH and pOH for a 0.030 M HCl solution.
12. Calculate the [H+], [OH-], pH and pOH for a 0.20 M NaOH solution.
13. 300.0 mL of 0.20 M HCl is added to 500.0 mL of water, calculate the pH of the solution.
14. 200.0 mL of 0.020 M HCl is diluted to a final volume of 500.0 mL with water, calculate the pH.
15. 150.0 mL of 0.40 M Ba(OH)2 is placed in a 500.0 mL volumetric flask and filled to the
mark with water, calculate the pH of the solution. 16. 250.0 mL of 0.20M Sr(OH)2 is diluted by adding 350.0 mL of water, calculate the pH of
the solution.
17. Calculate the pH of a 0.40 solution of Ba(OH)2 when 25.0 mL is added to 25.0 mL of water.
Worksheet # 10 pH Calculations for Weak Acids 1. Calculate the [H+], [OH-], pH, and pOH for 0.20 M HCN.
[H+] = [OH-] = pH = pOH = 2. Calculate the [H+], [OH-], pH, and pOH for 2.20 M HF.
[H+] = [OH-] = pH = pOH = 3. Calculate the [H+], [OH-], pH, and pOH for 0.805 M CH3COOH.
[H+] = [OH-] = pH = pOH = 4. Calculate the [H+], [OH-], pH, and pOH for 1.65 M H3BO3.
[H+] = [OH-] = pH = pOH = 5. Calculate the pH of a saturated solution of Mg(OH)2. 6. Calculate the pH of a 0.200 M weak diprotic acid with a Ka = 1.8 x 10-6. 7. 350.0 mL of 0.20M Sr(OH)2 is diluted by adding 450.0 mL of water, calculate the pH of
the solution.
Worksheet # 11 pH Calculations for Weak Acids 1. The pH of 0.20 M HCN is 5.00. Calculate the Ka for HCN. Compare your calculated value with
that in the table. 2. The pH of 2.20 M HF is 1.56. Calculate the Ka for HF. Compare your calculated value with that
in the table.
3. The pH of 0.805 M CH3COOH is 2.42. Calculate the Ka for CH3COOH. Compare your
calculated value with that in the table. 4. The pH of 1.65 M H3BO3 is 4.46. Calculate the Ka for H3BO3. Compare your calculated value
with that in the table. 5. The pH of a 0.10 M diprotic acid is 3.683, calculate the Ka and identify the acid. 6. The pH of 0.20 M NH3 is 11.227; calculate the Kb of the Base. 7. The pH of 0.40 M NaCN is 11.456; calculate the Kb for the basic salt. Start by writing an
equation and an ICE chart.
8. The pH of a 0.10 M triprotic acid is 5.068, calculate the Ka and identify the acid. 9. How many grams of CH3COOH are dissolved in 2.00 L of a solution with pH = 2.45? Use questions 1 to 4 from last assignment to mark questions 1 to 4. Worksheet # 12 Kb For Weak Bases Determine the Kb for each weak base. Write the ionization reaction for each. Remember that Kw = Ka • Kb (the acid and base must be conjugates). Find the base on the right side of the acid table and use the Ka values that correspond. Be careful with amphiprotic anions! The first one is done for you. 1. NaNO2 (the basic ion is NO2
-)
Kb(NO2-) = Kw = 1.0 x 10 -14 = 2.2 x 10-11
Ka(HNO2) 4.6 x 10-4
2. KCH3COO (the basic ion is CH3COO-)
3. NaHCO3
4. NH3
5. NaCN6. Li2HPO4
7. KH2PO4
8. K2CO3
9. Calculate the [H+], [OH-], pH, and pOH for 0.20 M H2CO3.
[H+] = [OH-] = pH = pOH = 10. The pH of 0.20 M H2CO3 is 3.53. Calculate the Ka for H2CO3. Compare your calculated value
with that in the table.
11. Calculate the [H+], [OH-], pH, and pOH for 0.10 M CH3COOH.
[H+] = [OH-] = pH = pOH = 12. The pH of 0.10 M CH3COOH is 2.87. Calculate the Ka for CH3COOH. Compare your calculated
value with that in the table. 13. 200.0 mL of 0.120 M H2SO4 reacts with 400.0 mL of 0.140 M NaOH. Calculate the pH of the resulting solution.
Worksheet # 13 Acid and Base pH Calculations
For each weak bases calculate the [OH-], [H+], pOH and pH. Remember that you need to calculate Kb first. 1. 0.20 M CN-
2. 0.010 M NaHS (the basic ion is HS-) 3. 0.067 M KCH3COO 4. 0.40 M KHCO3
5. 0.60 M NH3
6. If the pH of a 0.10 M weak acid H2X is 3.683, calculate the Ka for the acid and identify the acid
using your acid chart. 7. Calculate the [H+], [OH-], pH, and pOH for 0.80 M H3BO3.
[H+] = [OH-] = pH = pOH = 8. Calculate the [H+], [OH-], pH, and pOH for 0.25 M H2CO3.
[H+] = [OH-] = pH = pOH = 9. The pH of 1.65 M H3BO3 is 4.46. Calculate the Ka for H3BO3. Compare your calculated value
with that in the table. 10. The pH of 0.65 M NaX is 12.46. Calculate the Kb for NaX. 11. Consider the following reaction: 2HCl + Ba(OH)2 → BaCl2 + 2H2O
When 3.16g samples of Ba(OH)2 were titrated to the equivalence point with an HCl solution, the following data was recorded.
Trial Volume of HCl added#1 37.80 mL#2 35.49 mL#3 35.51 mL Calculate the original [HCl]
12. Calculate the volume of 0.200M H2SO4 required to neutralize 25.0 ml of 0.100M NaOH. 13. 25.0 mL of .200 M HCl is mixed with 50.0 mL 0.100 M NaOH, calculate the pH of he resulting
solution. 14. 10.0 mL of 0.200 M H2SO4 is mixed with 25.0 mL 0.200 M NaOH, calculate the pH of the
resulting solution.15. 125.0 mL of .200 M HCl is mixed with 350.0 mL 0.100 M NaOH, calculate the pH of the
resulting solution. 16. Define standard solution and describe two ways to standardize a solution.
17. What is the [H3O+] in a solution formed by adding 60.0 mL of water to 40.0 mL of 0.040 M KOH
solution?
Worksheet # 14 Amphiprotic Ions and Review 1. List the properties of acids/bases. 2. Define the following:
Arhenius strong acid Arhenius weak base
Bronsted strong acid
Bronsted weak base
Conjugate pair
Amphiprotic
Standard solution.
3. Show by calculation if the following amphiprotic ions are acids or bases:
HCO3-
H2PO4-
HPO42-
4. What is the strongest base in water? What is the strongest acid in water? Write equations to
explain your answer. 5. Match each equation:
Acid/base complete HCl + NaOH → NaCl + HOH Acid/base net ionic F- + HOH → HF + OH-
Solubility product H+ + OH- → HOH Hydrolysis AgCl(s) → Ag+ + Cl-
Acid/Base formula H20 → H+ + OH-
Ionization of water H+ + Cl- + Na+ + OH- → Na++ Cl- + H2O 6. HCl and HF. Describe each acid as: a) strong or weak b) high or low ionization c) large or small Ka d) good or poor conductor e) strong or weak electrolyte 7. Out of 0.2 M HCl and 1.0 M HF, which is the most concentrated?
Which is the strongest acid? 8. Label the scale as strong/weak acid and strong/weak base.
|________________________|_________________________|__pH 0 7 14
9. Which ions are amphiprotic? HPO4
2- HCl F- HS- H2S H2O 10. Write the net ionic equation between any strong acid and strong base. 11. Write the ionization equation for water. 12. Write the Kw expression. 13. H2SO3 + HS- ⇄ H2S + HSO3
-
a) Are the reactants or products favoured?
b) Is the Keq large, small or about 1?
Determine the pH Write equations for each first! 14. .20M HCl pH=? 15. 0.20M Ba(OH)2 pH=?
16. 0.20M H2CO3 pH=? 17. 0.40M KHCO3 pH=? 18. The pH increases by 2 units. How does [H+] change? 19. The pH decreases by 1 unit. How does [H+] change? 20. a) For distilled water : pH= pOH= [H+]= [OH-]=
b) For 1M HCl: pH= pOH= [H+]= [OH-]= c) For 1M NaOH: pH= pOH= [H+]= [OH-]=
21. The pH of 0.20 M NaX is 12.50; calculate the Kb. 22. The pH of 0.2 M HX is 4.5; calculate the Ka. 23. 100.0 mL of 0.200 M NaOH is mixed with 100.0 mL of 0.180 M HCl. Calculate the pH of the
resulting solution.
24. How many grams of NaHCO3 are required to make 100.0 mL of 0.200M solution? 25. What volume of 0.200 M NaOH is required to neutralize 25.0 mL of 0.150 M H2SO4? 26. In a titration 25.0 mL of .200M H2SO4 is required to neutralize 10.0 mL NaOH. Calculate the
concentration of the base. 27. Calculate the concentration of a solution of NaCl made by dissolving 50.0 g in 250.0 mL of water. 28. SO3(g) + H2O(g) ⇄ H2SO4(l)
Equilibrium concentrations are found to be:[SO3] = 0.400 M [ H2O] = 0.480 M [H2SO4] = 0.600 M Calculate the value of the equilibrium constant.
29. 4.00 moles of SO2 and 5.00 moles O2 are placed in a 2.00 L container at 200º C and allowed to
reach equilibrium. If the equilibrium concentration of O2 is 2.00 M, calculate the Keq.
2SO2(g) + O2(g) ⇄ 2SO3(g)
Worksheet # 15 Buffers and indicators Buffers 1. Definition 2. Acid Conjugate Base Salt HCN KHCO3
NH3 HF NaCH3COO HC2O4
- 3. Write an equation for the first three buffer systems above. 4. Which buffer could have a pH of 4.0? Which buffer could have a pH of 10.0?
a) HCl & NaCl b) HF & NaF c) NH3 & NH4Cl
5. Predict how the buffer of pH = 9.00 will change. Your possible answers are 9.00, 8.98, 9.01, 2.00, and 13.00
Final pH a) 2 drops of 0.10 M HCl are added b) 1 drop of 0.10 M NaOH is added c) 10 mL of 0.10 M HCl are added 6. Write an equation for the carbonic acid, sodium hydrogencarbonate buffer system. A few drops of
HCl are added. Describe the shift and each concentration change.
Equation:
Shift [H+] = [H2CO3] = [HCO3-] =
Indicators 1. Definition 2. Equilibrium equation 3. Colors for methyl orange HInd Ind- 4. Compare the relative sizes of [HInd] and [Ind-] at the following pH’s for methyl orange.
Color Relationship
pH = 2.0
pH = 3.7
pH = 5.0 5. HCl is added to methyl orange, describe if each increases or decreases.
[H+]
[HInd]
[Ind-]
Color Change 6. NaOH is added to methyl orange, describe if each increases or decreases.
[H+]
[HInd]
[Ind-]
Color Change 7. State two equations that are true at the transition point of an indicator.
8. What indicator has a Ka = 4 x 10-8
9. What is the Ka for methyl orange? 10. A solution is pink in phenolphthalein and colorless in thymolphthalein. What is the pH of the
solution? 11. A solution is blue in bromothymol blue, red in phenol red, and yellow in thymol blue. What is the
pH of the solution? Worksheet # 16 Titration Curves
Choose an indicator and describe the approximate pH of the equivalence point for each titration. Complete each reaction.
pH Indicator 1. HCl + NaOH → 2. HF + RbOH → 3. HI + Ba(OH)2 → 4. HCN + KOH → 5. HClO4 + NH3 → 6. CH3COOH + LiOH → 7. Calculate the Ka of bromothymol blue. 8. An indicator has a Ka = 1 x 10-10, determine the indicator.9. Calculate the Ka of methyl orange.
10. An indicator has a Ka = 6.3 x 10-13, determine the indicator. 11. Explain the difference between an equivalence point and a transition point. Draw a titration curve for each of the following. 12. Adding 100 ml 1.0 M NaOH to 13. Adding 100 ml 1.0 M NaOH to
50 mL 1.0 M HCl 50 mL 1.0 M HCN pH
Volume of base added Volume of base added 14. Adding 100 ml 0.10 M HCl 15. Adding 100 ml .10 M HCl to 50 mL 0.10M NH3 to 50 mL 0.10 M NaOH pH pH
Volume of HCl added Volume of HCl added
Acids Unit Midterm Practice Test 1. Consider the following:
I H2CO3 + F- ⇄ HCO3- + HF
II HCO3- + HC2O4
- ⇄ H2CO3 + C2O42-
III HCO3- + H2C6H6O7
- ⇄ H2CO3 + HC6H5O72-
The HCO3- is a base in
A. I onlyB. I and II onlyC. II and III onlyD. I, II, and III
2. Consider the following equilibrium for an indicator:
HInd + H2O ⇄ Ind- + H3O+
When a few drops of indicator methyl red are added to 1.0 M HCl, the colour of the resulting solution is A. red and the products are favouredB. red and the reactants are favouredC. yellow and the products are favouredD. yellow and the reactants are favoured
3. The volume of 0.200 M Sr(OH)2 needed to neutralize 50.0 mL of 0.200 M HI is
A. 10.0 mLB. 25.0 mLC. 50.0 mLD. 100.0 mL
4. The pOH of 0.050 M HCl is
A. 0.050B. 1.30C. 12.70D. 13.70
5. The volume of 0.450 M HCl needed to neutralize 40.0 mL of 0.450 M Sr(OH)2 is
A. 18.0 mLB. 20.0 mLC. 40.0 mLD. 80.0 mL
6. Consider the following
I H3PO4 II H2PO4- III HPO4
2- IV PO43-
Which of the above solutions are amphiprotic?
A. I and II onlyB. II and III onlyC. I, II, and III onlyD. II, III, and IV only
7. Which of the following solutions will have the largest [H3O+]?
A. 1.0 M HNO2
B. 1.0 M HBO3
C. 1.0 M H2C2O4
D. 1.0 M HCOOH 8. Consider the following: H2O + 57 kJ ⇄ H3O+ + OH-
When the temperature of the system is increased, the equilibrium shifts
A. left and the Kw increasesB. left and the Kw decreasesC. right and the Kw increasesD. right and the Kw decreases
9. Normal rainwater has a pH of approximately 6 as a result of dissolved
A. oxygenB. carbon dioxideC. sulphur dioxideD. nitrogen dioxide
10. A 1.0 M solution of sodium dihydrogen phosphate is
A. acidic and the pH < 7.00B. acidic and the pH > 7.00C. basic and the pH < 7.00D. basic and the pH > 7.00
11. Consider the following equilibrium for an indicator:
HInd + H2O ⇄ Ind- + H3O+
When a few drops of indicator chlorophenol red are added to a colourless solution of pH 4.0, the resulting solution is A. red as [HInd] < [Ind-]B. red as [HInd] > [Ind-]C. yellow as [HInd] < [Ind-]D. yellow as [HInd] > [Ind-]
12. A Bronsted-Lowry base is defined as a chemical species that
A. accepts protonsB. neutralizes acidsC. donated electronsD. produces hydroxides ions in solution
13. Which of the following solutions will have the greatest electrical conductivity?
A. 1.0 M HCNB. 1.0 M H2SO4
C. 1.0 M H3PO4
D. 1.0 M CH3COOH 14. Consider the following equilibrium: HC6H5O7
2- + HIO3 ⇄ H2C6H5O7- + IO3
-
The order of Bronsted-Lowry acids and bases is
A. acid, base, acid, baseB. acid, base, base, acidC. base, acid, acid, baseD. base, acid, base acid
15. Consider the following: H2O(l) ⇄ H+ + OH-
When a small amount of 1.0 M KOH is added to the above system, the equilibrium A. shifts left and [H+] decreasesB. shifts left and [H+] increasesC. shifts right and [H+] decreasesD. shifts right and [H+] increases
16. Which of the following has the highest pH?
A. 1.0 M NaIO3
B. 1.0 M Na2CO3
C. 1.0 M Na3PO4
D. 1.0 M Na2SO4
17. In a 100.0 mL sample of 0.0800 M NaOH the [H3O+] is
A. 1.25 x 10-13 MB. 1.25 x 10-12 MC. 8.00 x 10-3 MD. 8.00 x 10-2 M
18. Consider the following:
I ammonium nitrate II calcium nitrate III iron III nitrate When dissolved in water, which of these salts would form a neutral solution? A. II onlyB. III onlyC. I and III onlyD. I, II, and III
19. Consider the following: SO4
2- + HNO2 ⇄ HSO4- + NO2
-
Equilibrium would favour the
A. the products since HSO4
- is a weaker acid than HNO2
B. the reactants since HSO4- is a weaker acid than HNO2
C. the products since HSO4- is a stronger acid than HNO2
D. the reactants since HSO4- is a stronger acid than HNO2
20. The net ionic equation for the hydrolysis of Na2CO3 is
A. H2O + Na+ ⇄ NaOH + H+
B. H2O + 2Na+ ⇄ Na2O + 2H+
C. H2O + CO32- ⇄ H2CO3 + O2-
D. H2O + CO32- ⇄ HCO3
- + OH-
21. Consider the following equilibrium: 2H2O(l) ⇄ H3O+ + OH-
A few drops of 1.0 M HCl are added to the above system. When equilibrium is re-established, the A. [H3O+] has increased and the [OH-] has decreasedB. [H3O+] has increased and the [OH-] has increasedC. [H3O+] has decreased and the [OH-] has increasedD. [H3O+] has decreased and the [OH-] has decreased
22. A basic solution
A. tastes sourB. feels slipperyC. does not conduct electricityD. reacts with metals to release oxygen gas
23. The balanced formula equation for the neutralization of H2SO4 by KOH is
A. H2SO4 + KOH → KSO4 + H2OB. H2SO4 + KOH → K2SO4 + H2OC. H2SO4 + 2KOH → K2SO4 + H2OD. H2SO4 + 2KOH → K2SO4 + 2H2O
24. An Arrhenius base is defined as a substance which
A. donates protonsB. donates electronsC. produces H+ in solutionD. produces OH- in solution
25. Consider the following equilibrium: HS- + H3PO4 ⇄ H2S + H2PO4
-
The order of Bronsted-Lowry acids and bases is
A. acid, base, acid, base.B. acid, base, base, acidC. base, acid, acid, baseD. base, acid, base, acid
26. The equation representing the reaction of ethanoic acid with water is
A. CH3COO- + H2O ⇄ CH3COOH + OH-
B. CH3COO- + H2O ⇄ CH3COO2- + H3O+
C. CH3COOH + H2O ⇄ CH3COO- + H3O+
D. CH3COOH + H2O ⇄ CH3COOH2+ + OH-
27. Consider the following equilibrium: 2H2O + 57kJ ⇄ H3O+ + OH-
When the temperature is decreased, the water
A. stays neutral and the [H3O+] increasesB. stays neutral and the [H3O+] decreasesC. becomes basic and [H3O+] decreasesD. becomes acidic and [H3O+] increases
28. The equation for the reaction of Cl2O with water is
A. Cl2O + H2O ⇄ 2HClOB. Cl2O + H2O ⇄ 2ClO + H2
C. Cl2O + H2O ⇄ Cl2 + H2O2
D. Cl2O + H2O ⇄ Cl2 + O2 + H2
29. The conjugate acid of C6H50- is
A. C6H4O-
B. C6H5OHC. C6H4O2-
D. C6H5OH+
30. Which of the following solutions will have the greatest electrical conductivity?
A. 1.0 M HClB. 1.0 M HNO2
C. 1.0 M H3BO3
D. 1.0 M HCOOH 31. A solution of 1.0 M HF has
A. a lower pH than a solution of 1.0 M HClB. a higher pOH than a solution of 1.0 M HClC. a higher [OH-] than a solution of 1.0 M HClD. a higher [H3O+] than a solution of 1.0 M HCl
32. Which of the following is the weakest acid
A. HIO3
B. HCNC. HNO3
D. C6H5COOH 33. Considering the following data
H3AsO4 Ka = 5.0 x 10-5
H2AsO4- Ka = 8.0 x 10-8
HAsO42- Ka = 6.0 x 10-10
The Kb value for H2AsO4- is
A. 2.0 x 10-10
B. 8.0 x 10-8
C. 1.2 x 10-7
D. 1.7 x 10-5
34. In a solution at 25oC, the [H3O+] is 3.5 x 10-6 M. The [OH-] is
A. 3.5 x 10-20 MB. 2.9 x 10-9 MC. 1.0 x 10-7 MD. 3.5 x 10-6 M
35. In a solution with a pOH of 4.22, the [OH-] is
A. 1.7 x 10-10 MB. 6.0 x 10-5 MC. 6.3 x 10-1 M
D. 1.7 x 104 M 36. An aqueous solution of NH4CN is
A. basic because Ka < KbB. basic because Ka > KbC. acidic because Ka < KbD. acidic because Ka > Kb
37. The net ionic equation for the predominant hydrolysis reaction of KHSO4 is
A. HSO4- + H2O ⇄ SO4
2- + H3O+
B. HSO4- + H2O ⇄ H2SO4 + OH-
C. KHSO4 + H2O ⇄ K+ + SO42- + H3O+
D. KHSO4 + H2O ⇄ K+ + H2SO4 + OH-
38. The [OH-] in an aqueous solution always equals
A. Kw x [H3O+]B. Kw - [H3O+]C. Kw/[H3O+]D. [H3O+]/Kw
39. The [H3O+] in a solution with pOH of 0.253 is
A. 5.58 x 10-15 MB. 1.79 x 10-14 MC. 5.58 x 10-1 MD. 5.97 x 10-1 M
40. The equilibrium expression for the hydrolysis reaction of 1.0 M K2HPO4 is
A. [H2PO4- ][OH - ] B. [H3PO4][OH - ]
[HPO42-] [H2PO4
-]
C. [K + ] [KHPO 4- ] D. [K + ] 2 [HPO 4
2- ] [K2HPO4] [K2HPO4]
41. The solution with the highest pH is
A. 1.0 M NaClB. 1.0 M NaCNC. 1.0 M NaIO3
D. 1.0 M Na2SO4
42. The pH of 100.0 mL of 0.0050 M NaOH is
A. 2.30B. 3.30C. 10.70D. 11.70
43. Consider the following equilibrium for an indicator: HInd + H2O ⇄ Ind- + H3O+
At the transition point,
A. [HInd] > [Ind-]B. [HInd] = [Ind-]C. [HInd] < [Ind-]D. [HInd] = [H3O+]
Acids Unit Midterm Practice Test Subjective 1. a) Write the net ionic equation for the reaction between NaHSO3 and
NaHC2O4.
b) Explain why the reactants are favoured in the above reaction. 2. What is the [H3O+] in a solution formed by adding 60.0 mL of water to 40.0 mL
of 0.400 M KOH? 3. A solution of 0.100 M HOCN has a pH of 2.24. Calculate the Ka value for the acid. 4. Calculate the pH in 100.0 mL 0.400 M H3BO3.
5. Calculate the pH of the solution formed by mixing 20.0 mL of 0.500 M HCl with 30.0 mL of
0.300 M NaOH. 6. a) Write the balanced equation representing the reaction of HF with H2O.
b) Identify the Bronsted-Lowry bases in the above equation. 7. Consider the following data:
Barbituric acid HC4H3N2O3 Ka = 9.8 x 10-5
Sodium propanoate NaC3H5O2 Kb = 7.5 x 10-10
Propanoic acid HC3H5O2 Ka = ?
Which is the stronger acid, propanoic acid or babituric acid? Explain using calculations.
8. A solution of 0.0100 M lactic acid, HC3H5O3, has a pH of 2.95. Calculate the Ka value. 9. a) Write equations showing the amphiprotic nature of water as it reacts with
HCO3-.
b) Calculate the Kb for HCO3-.
10. Calculate the [H3O+] in 0.550 M C6H5COOH. Quiz #1 Properties of Acids, Bases, Salts, Arrhenius Bronsted Acids, Ka, Strength 1. Drano®, a commercial product used to clean drains, contains small bits of aluminum metal and
A. ammoniaB. acetic acidC. hydrochloric acidD. sodium hydroxide
2. A net ionic equation for the reaction between CH3COOH and KOH is
A. CH3COOH(aq) + K+(aq) ⇄ CH3COOK(aq)
B. CH3COOH(aq) + OH-(aq) ⇄ H2O(l) + CH3COO-
(aq)
C. CH3COOH(aq) + KOH(aq) ⇄ H2O(l) + CH3COOK(aq)
D. CH3COOH(aq) + K+(aq) + OH-
(aq)⇄ H2O(l) + KCH3COO(aq)
3. Which equation represents a neutralization reaction?
A. Pb2+(aq) + 2Cl-
(aq) → PbCl2(s)
B. HCl(aq) + NH3(aq) → NH4Cl(aq)
C. BaI2(aq) + MgSO4(aq) → BaSO4(s) + MgI2(aq)
D. MnO4-(aq) + 5Fe2+
(aq) +8H+(aq) → Mn2+
(aq) + 5Fe3+(aq) + 4H2O(l)
4. An Arrhenius acid is a substance that
A. accepts a protonB. donates a protonC. produces H+ in solutionD. produces OH- in solution
5. Consider the following data table:
Breaker Volume Contents1 15 mL 0.1 M Sr(OH)2
2 20 mL 0.2 M NH4OH3 25 mL 0.1 M KOH4 50 mL 0.2 M NaOH
Identify the beaker that requires the smallest volume of 1.0 M HCl for complete neutralization
A. Beaker 1B. Beaker 2C. Beaker 3D. Beaker 4
6. The net ionic equation for the titration of HClO4(aq) with LiOH(aq) is
A. H+(aq) + OH-
(aq) → H2O(l)
B. HClO4(aq) + OH-(aq) → ClO4
-(aq) + H2O(l)
C. HClO4(aq) + LiOH(aq) → LiClO4(aq) + H2O(l)
D. H+(aq) + ClO4
-(aq)
+ Li+(aq) + OH-
(aq) → LiClO4(aq) + H2O(l) 7. The equilibrium constant expression for a sulphurous acid is
A Ka = [H+][HSO3-]
B. Ka = [H + ][HSO 3
- ] [H2SO3]
C. Ka = [2H + ][SO 32- ]
[H2SO3]
D. Ka = [H + ][SO 32- ]
[H2SO3] 8. To distinguish between a strong acid and a strong base, an experimenter could use
A. odorB. magnesiumC. a conductivity testD. the common ion test
9. How many acids from the list below are known to be weak acids?
HCl, HF, H2SO3, H2SO4, HNO3, HNO2
A. 2B. 3C. 4D. 5
10. There are two beakers on a laboratory desk. One beaker contains 1.0 M HCl and the other contains tap water. To distinguish the acid solution from the water, one would use
A. a piece of copper.B. a piece of magnesiumC. phenolphthalein indicatorD. a piece or red litmus paper
11. Caustic soda, NaOH, is found in
A. fertilizersB. beveragesC. toothpasteD. oven cleaners
12. Which of the following is the strongest acid?
A. Acetic acidB. Oxalic acidC. Benzoic acidD. Carbonic acid
13. The acid used in the lead-acid storage battery is
A. HClB. HNO3
C. H2SO4
D. CH3COOH Quiz #2 Conjugates, Amphiprotic, Arrhenius, Bronsted Bases, Kb, & Strength 1. A test that could be safely used to distinguish a strong base from a weak base is
A. tasteB. touchC. litmus paperD. electrical conductivity
2. Identify the two substances that act as Bronsted-Lowry bases in the equation
HS- + SO42- ⇄ S2- + HSO4
-
A. HS- and S2-
B. SO4 2-and S2-
C. HS- and HSO4-
D. SO42- and HSO4
-
3. The conjugate acid of H2C6H5O-7 is
A. C6H5O7
3-
B. HC6H5O72-
C. H2C6H5O7
D. H3C6H5O7 4. Which one of the following substances is/are amphiprotic?
(1) H3PO4 (2) H2PO4- (3) HPO4
2-
A. 2 onlyB. 3 onlyC. 1 and 2D. 2 and 3
5. The net ionic equation for the neutralization of HBr by Ca(OH)2 is
A. H+(aq) + OH-
(aq) ⇄ H2O(l)
B. Ca2+(aq) + 2Br-
(aq) ⇄ CaBr2(s)
C. 2HBr(aq) + Ca(OH)2(aq) ⇄ 2H2O(l) + CaBr2(s)
D. 2H+(aq) + 2Br -
(aq) + Ca2+(aq) + 2OH-
(aq) ⇄ 2H2O(l) + Ca2+(aq) + 2Br -
(aq) 6. If reactants are favored in the following equilibrium, the stronger base must be
HCN + HS - ⇄ H2S + CN -
A. H2SB. HS-
C. CN-
D. HCN 7. The hydronium ion, H3O+ is a water molecule that has
A. lost a protonB. gained a protonC. gained a neutronD. gained an electron
8. The complete ionic equation for the neutralization of acetic acid by sodium hydroxide is
A. H+ + OH- ⇄ H2OB. CH3COOH + OH- ⇄ CH3COO- + H2OC. CH3COOH + NaOH ⇄ NaCH3COOH + H2OD. CH3COOH + Na+ + OH- ⇄ Na+ + CH3COO- + H2O
9. In the following Bronsted – Lowry acid-base equation:
NH4+
(aq) + H2O(l) ⇄ NH3(aq) + H3O+(aq)
The stronger base is
A. NH4+
B. H2OC. NH3
D. H3O+ 10. Consider the following equilibrium system:
OCl-(aq) + HC7H5O2(aq) ⇄ HOCl(aq) + C7H5O2
-(aq) Keq= 2.1 x 103
At Equilibrium
A. products are favored and HOCl is the stronger acidB. reactants are favored and HOCl is the stronger acidC. products are favored and HC7H5O2 is the stronger acidD. reactants are favored and HC7H5O2 is the stronger acid
11. In the equilibrium system
H2BO3-
(aq) + HCO3-(aq) ⇄ H2CO3(aq) + HBO3
2-(aq)
The two species acting as Bronsted-Lowry acids are
A. HCO3- and H2CO3
B. H2BO3- and H2CO3
C. HCO3- and HBO3
2-
D. H2BO3- and HBO3
2- 12. Consider the following equilibrium HS- + H2C2O4 ⇄ HC2O4
- + H2SThe stronger acid is
A. HS-
B. H2C2O4
C. HC2O4-
D. H2S
Quiz #3 Leveling effect, Anhydrides, Hydrolysis, Relationships 1. Which of the following oxides will form the most acidic solution?
A. SO2
B. MgOC. Na2OD. Al2O3
2. Which one of the following salts will produce an acidic solution?
A. KBrB. LiCNC. NH4ClD. NaCH3COO
3. The balanced equation for the reaction between sodium oxide and water is
A. Na2O + H2O → 2NaOHB. Na2O + H2O → 2NaH + O2
C. Na2O + H2O → 2Na + H2O2
D. Na2O + H2O → 2Na + H2 +O2
4. ‘Normal’ rainwater is slightly acidic due to the presence of dissolved
A. methaneB. carbon dioxideC. sulphur dioxideD. nitrogen dioxide
5. Which of the following oxides would hydrolyze to produce hydroxide ions?
A. NOB. SO2
C. Cl2OD. Na2O
6. The approximate pH of “normal” rainwater is
A. 0B. 6C. 7D. 8
7. Which of the following oxides would hydrolyze to produce hydronium ions?
A. CaOB. SO2
C. MgOD. Na2O
8. Which of the following gasses results in the formation of acid rain?
A. H2
B. O3
C. SO2
D. NH3
9. Consider the following acid base solution
HSO3- + HF ⇄ H2SO3 + F-
The order of Bronsted-Lowry acids and bases in this equation is
A. acid + base ⇄ acid + baseB. acid + base ⇄ base + acid C. base + acid ⇄ base + acidD. base + acid ⇄ acid + base
10. The conjugate acid of OH- is
A. H+
B. O2-
C. H2OD. H3O+
11. Which of the following 0.10 M solutions will have the greatest electrical conductivity?
A. HFB. NH3
C. NaOHD. C6H5COOH
12. The amphiprotic ion HSeO3
- can undergo hydrolysis according to the following equations
HSeO3- + H2O ⇄ H2SeO3 + OH- K1
HSeO3- + H2O ⇄ SeO3
2-+ H3O+ K2
An aqueous solution of HSeO3
- is found to be acidic. This observation indicates that when it is added to water, HSeO3
- behaves mainly as a
A. proton donor, and K1 is less than K2
B. proton donor, and K1 is greater than K2
C. proton acceptor, and K1 is less than K2
D. proton acceptor, and K1 is greater than K2
13. The Kb expression for HPO42- is
A. [PO43- ][H 3O + ] B. [HPO4
2- ][OH - ] [HPO4
2-] [H2PO4-]
C. [H2PO4
- ][OH - ] D. [HPO42- ][ H 3O + ]
[HPO42-] [PO4
3-] Quiz #4 Anhydrides, Hydrolysis 1. Which of the following pairs of gases are primarily responsible for producing “acid rain”?
A. O2 and O3
B. N2 and O2
C. CO and CO2
D. NO2 and SO2
2. Sodium potassium tartrate (NaKC4H4O6) is used to raise the pH of fruit during processing. In this process, sodium potassium tartrate is being used as a/an
A. saltB. acidC. baseD. buffer
3. The net ionic equation for the hydrolysis of the salt, Na2S is
A. Na2S ⇄ 2Na+ + S2-
B. S2- + H2O ⇄ OH- + HS-
C. Na2S + 2H2O ⇄ 2NaOH + H2SD. 2Na+ + S2- + 2H2O ⇄ 2Na+ + 2OH- + H2S
4. Which of the following solutions would be acidic?
A. sodium acetateB. iron III chlorideC. sodium carbonateD. potassium chloride
5. Consider the following salts: I. NaF II. NaClO4 III. NaHSO4
Which of these salts, when dissolved in water, would form a basic solution?
A. I onlyB. I and II onlyC. II and III onlyD. I, II and III
6. Which of the following, when dissolved in water, forms a basic solution?
A. KClB. NaClO4
C. Na2CO3
D. NH4NO3 7. Which of the following oxides forms a basic solution?
A. K2OB. CO2
C. SO3
D. NO2
8. Which of the following is amphiprotic in water?
A. SO2
B. SO32-
C. HSO3-
D. H2SO3
9. Consider the following equilibrium expression
K= [H2S][OH - ] [HS-]
This expression represents the
A. Kb for H2SB. Ka for H2SC. Kb for HS-
D. Ka for HS- 10. The reaction of a strong acid with a strong base produces
A. A salt and a waterB. A base and an acidC. A metallic oxide and waterD. A non-metallic oxide and water
11. Consider the following equilibrium:
CH3COOH(aq) + NH3(aq) ⇄ CH3COO- (aq) + NH4+
(aq)
The sequence of Bronsted-Lowry acids and bases in the above equilibrium equation is
A. acid, base, base, acidB. acid, base, acid, baseC. base, acid, base, acidD. base, acid, acid, base
12. The pH range of ‘acid rain’ is often
A. 3 to 6B. 6 to 8C. 7 to 9D. 10 to 12
13. Water will act as a Bronsted-Lowry acid with
A. NH3
B. H2SC. HCND. HNO3
14. Which of the following is a conjugate acid-base pair?
A. H3PO4 and PO43-
B. H2PO4- and PO4
3-
C. H3PO4 and HPO42-
D. H2PO4- and HPO4
2-
Quiz #5 pH calculations for Strong and Weak Acids 1. The 1.0 M acidic solution with the highest pH is
A. H2SB HNO2
C. HNO3
D. H3BO3
2. At 25oC, the equation representing the ionization of water is
A H2O + H2O ⇄ 2H2 + O2
B. H2O + H2O ⇄ H2O2 + H2
C. H2O + H2O ⇄ 4H+ + 2O2- D. H2O + H2O ⇄ H3O+ +OH-
3. The pH of a 0.3 M solution of NH3 is approximately
A. 14.0B. 11.0C. 6.0D. 3.0
4. The pH of an aqueous solution is 4.32. The [OH-] is
A. 6.4 x 10-1 MB. 4.8 x 10-5 MC. 2.1 x 10-10 MD. 1.6 x 10-14 M
5. The pH of an aqueous solution is 10.32. The [OH-] is
A. 5.0 x 10-12 MB. 2.0 x 10-11 MC. 4.8 x 10-11 MD. 2.1 x 10-4 M
6. The pH of a 0.025 M HClO4 solution is
A. 0.94B. 1.60C. 12.40D. 13.06
7. Consider the following equilibrium: H2O(l) + H2O(l) ⇄ H3O+
(aq) + OH-(aq)
The equilibrium constant for this system is referred to as
A. Kw B. Ka C. Kb D. Ksp
8. The [H3O+] in a solution of pH = 0.60 is
A. 4.0 x 10-14 MB. 2.2 x 10-1 MC. 2.5 x 10-1 MD. 6.0 x 10-1 M
9. A solution is prepared by adding 100 mL of 10 M of HCl to a 1 litre volumetric flask and filling it
to the mark with water. The pH of this solution is
A. -1B. 0C. 1D. 7
10. The approximate pH of a 0.06 M solution of CH3COOH is
A. 1B. 3C. 11D. 13
11. The [OH-] is greater than the [H3O+] in
A. HCl(aq)
B. NH3(aq)
C. H2O(aq)
D. CH3COOH(aq)
12. The pH of 0.15 M HCl is
A. 0.15B. 0.71C. 0.82D. 13.18
13. Which of the following equations correctly relates pH and [H3O+]?
A. pH= log [H3O+]B. pH= 14 - [H3O+]
C. pH= -log [H3O+]D. pH= pKw – [H3O+]
14. The pH of 0.20 M HNO3 is
A. 0.20B. 0.63C. 0.70D. 1.58
15. The [OH-] in 0.050 M HNO3 at 25oC is
A. 5.0 x 10-16 MB. 1.0 x 10-14 MC. 2.0 x 10-13 MD. 5.0 x 10-2 M
Quiz #6 Ka’s from pH Kb’s from Ka’s 1. The Kb for the dihydrogen phosphate ion is
A. 1.3 x 10-12
B. 6.3 x 10-8
C. 1.6 x 10-7
D. 7.1 x 10-3 2. What volume of 0.100 M NaOH is required to neutralize a 10.0 mL sample of 0.200 M H2SO4?
A. 5.0 mLB. 10.0 mLC. 20.0 mLD. 40.0 mL
3. Consider the following equilibriums:
I HCO3- + H2O ⇄ H2CO3 + OH-
II NH4+ + H2O ⇄ H3O+ + NH3
III HSO3- + H3O+ ⇄ H2O + H2SO3
Water acts as a Bronsted-Lowry base in
A. III onlyB. I and II onlyC. II and III onlyD. I, II, and III
4. Which of the following is represented by a Kb expression?
A. Al(OH)3(s) ⇄ Al3+(aq) + 3OH-
(aq)
B. HF(aq) + H2O(l) ⇄ H3O+(aq) + F-
(aq)
C. Cr2O72-
(aq) + 2OH-(aq) ⇄ 2CrO4
2-(aq) + H2O(l)
D. CH3NH2(aq) + H2O(l) ⇄ CH3NH3+
(aq) + OH-(aq)
5. A student combines 0.25 mol of NaOH and 0.20 mol of HCl in water to make 2.0 liters of
solution. The pH of the solution is
A. 1.3B. 1.6C. 12.4D. 12.7
6. If OH- is added to a solution, the [H3O+] will
A. Remain constantB. Adjust such that [H3O+]= [OH - ]
Kw
C. Increase such that [H3O+][OH-] = Kw D. Decrease such that [H3O+][OH-] = Kw
7. In a titration, 10.0 mL of H2SO4(aq) is required to neutralize 0.0400 mol of NaOH. From this data, the [H2SO4] is
A. 0.0200 MB. 2.00 MC. 4.00 MD. 8.00 M
8. Consider the following equilibrium for an acid-base indicator:
Hlnd ⇄ H+ + Ind- Ka = 1.0 x 10-10 Which of the following statements is correct at pH 7.0?
A. [Ind-] < [HInd]B. [Ind-] = [HInd]C. [Ind-] > [HInd]D. [Ind-] = [H+] = [HInd]
9. Which of the following indicators would be yellow at pH 7 and blue at pH 10?
A. thymol blueB. methyl violetC. bromthymol blueD. bromcresol green
10. Consider the following equilibrium for phenolphthalein: HInd ⇄ H+ + Ind-
When phenolphthalein is added to 1.0 M NaOH, the color of the resulting solution is
A. pink as [HInd] is less than [Ind-]B. pink as [HInd] is greater than [Ind-]C. colorless as [HInd] is less than [Ind-]
D. colorless as [HInd] is greater than [Ind-] 11. Water acts as a base when it reacts with
A. CN-
B. NH3
C. NO2-
D. NH4+
12. What is the pH of a solution prepared by adding 0.50 mol KOH to 1.0 L of
0.30 M HNO3?
A. 0.20B. 0.70C. 13.30D. 13.80
13. The 1.0 M acid solution with the largest [H3O+] is
A. HNO2
B. H2SO3
C. H2CO3
D. H3BO3
Quiz #7 pH for Weak bases, pH Relationships, Amphiprotic Calculations 1. In water, the hydrogen sulphide ion, HPO4
2-, will act as
A. An acid because Ka < Kb
B. An acid because Ka > Kb
C. A base because Ka < Kb
D. A base because Ka > Kb
2. A student records the pH of 1.0 M solution of two acids. Which of the following statements can be concluded from the above data?
A. Acid X is stronger than acid YB. Acid X and acid Y are both weakC. Acid X is diprotic while acid Y is monoproticD. Acid X is 100 times more concentrated than acid Y
3. When added to water, the hydrogen carbonate ion, HCO3
-, produces a solution, which is
A. basic because Kb is greater than Ka B. basic because Ka is greater than Kb C. acidic because Ka is greater than Kb
Acid pHX 4.0Y 2.0
D. acidic because Kb is greater than Ka 4. The concentration, Ka and pH values of four acids are given in the following table
ACID Concentration Ka pH
HA 3.0 M 2.0 x 10-5 2.1HB 0.7 M 4.0 x 10-5 2.3HC 4.0 M 1.0 x 10-5 2.2HD 1.5 M 1.3 x 10-5 2.4
Based on this data, the strongest acid is
A. HAB. HBC. HCD. HD
5. Which of the following 0.10 M solutions is the most acidic?
A. AlCl3
B. FeCl3
C. CrCl3
D. NH4Cl 6. Which of the following acid-base indicators has a transition point between pH 7 and pH 9?
A. Ethyl red, Ka = 8 x 10-2
B. Congo red, Ka = 9.0 x 10-3
C. Cresol red, Ka = 1.0 x 10-8
D. Alizarin blue, Ka = 7.0 x 10-11
Quiz #8 Buffers and Indicators 1. Consider the following acid solutions:
I. H2CO3 II. HClO4 III. HF
Which of the above acids would form a buffer solution when its conjugate base is added?
A. I onlyB. II onlyC. I and III onlyD. I, II, and III only
2. Consider the following base indicator:
HInd ⇄ H+ + Ind- When the indicator is added to different solutions, the following data are obtained:
The acids HAl, HA2, and HInd listed in the order of decreasing acid strength is
A. HA2, HInd, HAl
B. HInd, HAl, HA2
C. HA2, HAl, HIndD. HAl, HInd, HA2
3. Which of the following compounds, when added to a solution of ammonium nitrate, will result in
the formation of a buffer solution?
A. AmmoniaB. Nitric acidC. Sodium nitrateD. Ammonium chloride
4. Which of the following represents a buffer equilibrium?
A. HI + H2O ⇄ H3O+ + I-
B. HCl + H2O ⇄ H3O + Cl-
C. HCN + H2O ⇄ H3O+ + CN-
D. HClO4 + H2O ⇄ H3O + ClO4-
5. Consider the following equilibrium:
HF(aq) + H2O(l) ⇄ H3O+(aq) + F-
(aq)
The above system will behave as a buffer when the [F-] is approximately equal to
A. Ka
B. [HF]C. [H2O]D. [H3O+]
6. A basic buffer solution can be prepared by mixing equal numbers of moles of
A. NH4CL and HClB. NaCl and NaOHC. Na2CO3 and NaHCO3
D. NaCH3COOH and CH3COOHQuiz #9 Titrations and Titration Curves 1. Which of the following indicators would be used when titrating a weak acid with a strong base?
A. Methyl redB. Methyl violetC. Indigo carmine
Solution 1.0 M HCl 1.0 M HAl 1.0 M HA2
Colour Yellow Blue Yellow
D. Phenolphthalein 2. Which of the following acid-base pairs would result in an equivalence point with pH greater than
7.0?
A. HCl and LiOHB. HNO3 and NH3
C. HClO4 and NaOHD. CH3COOH and KOH
3. Which of the following standardized solutions should a chemist select when titrating a 25.00 mL
sample of 0.1 M NH3, using methyl red as an indicator?
A. 0.114 M HClB. 6.00 M HNO3
C. 0.105 M NaOHD. 0.100 M CH3COOH
4. Consider the following 0.100 M solutions I. H2SO4 II. HCl III. HF
The equivalence point is reached when 10.00 mL of 0.100 NaOH has been added to 10.00 mL of solution(s)
A. II onlyB. I and II onlyC. II and III onlyD. I, II and III
5.
Which pair of 0.10 M solutions would result in the above titration curve?
A. HF and KOH
14-12-10- 8- 6- 4- 2-
B. HCl and NH3
C. H2S and NaOHD. HNO3 and KOH
6. A suitable indicator for the above titration is
A. Methyl violetB. Alizarin yellowC. Thymolphthalein D. Bromcresol green
7. The pH scale is
A. directB. inverseC. logarithmicD. exponential
8.
Which of the following indicators should be used in the titration represented by the above titration curve?
12- 10- 8- 6- 4- 2-
A. Orange IVB. Methyl redC. Phenolphthalein D. Alizarin yellow
9. Which of the following indicators should be used when 1.0 M HNO2 is titrated with NaOH(aq)?
A. Methyl redB. Thymol blueC. Methyl orangeD. Indigo carmine
10. Which of the following solutions should be used when titrating a 25.00 mL sample of CH3COOH
that is approximately 0.1 M?
A. 0.150 M NaOHB. 0.001 M NaOHC. 3.00 M NaOHD. 6.00 M NaOH
11. What volume of 0.250 M H2SO4 is required to neutralize 25.00 mL of 2.50 M KOH?
A. 125 mLB. 150 mLC. 250 mLD. 500mL
12. Which of the following pairs of substances form a buffer system for human blood?
A. HCl and Cl-
B. NH3 and NH2-
C. H2CO3 and HCO3-
D. H2C6H5O7 and HC6H5O72-
Quiz #10 Review 1. How many moles of Mg(OH)2 are required to neutralize 30.00 mL of 0.150 M HCl?
A. 2.25 x 10-3 molB. 4.50 x 10-3 molC. 5.00 x 10-3 molD. 9.00 x 10-3 mol
2. The approximate Ka for the indicator phenolphthalein is
A. 6 x 10-19
B. 8 x 10-10
C. 6 x 10-8
D. 2 x 10-2
3. A new indicator, “B.C. Blue (HInd),” is red in bases and blue in acids. Describe the shift in equilibrium and the resulting color change if 1.0 M HIO3 is added to a neutral, purple solution of this indicator: HInd + H2O ⇄ H3O+ + Ind-
A. Equilibrium shifts left, and colour becomes redB Equilibrium shifts left, and colour becomes blueC. Equilibrium shifts right, and colour becomes redD. Equilibrium shifts right, and colour becomes blue
4. Which one of the following combinations would act as an acid buffer?
A. HCl and NaOHB. KOH and KBrC. NH3 and NH4ClD. CH3COOH and NaCH3COO
5. What is the pH at the transition point of an indicator if its Ka is 7.9 x 10-3?
A. 0.98B. 2.10C. 7.00D. 11.90
6. Which of the following pH curves best represents the titration of sodium hydroxide with
hydrochloric acid? A. 7. A student prepares a buffer by placing ammonium chloride in a solution of ammonia. Equilibrium
is established according to the equation: NH3 + H2O ⇄ NH4+ + OH-
When a small amount of base is added to the buffer, the base reacts with
A. NH3 and the pH decreasesB. NH4
+ and the pH decreasesC. NH3 to keep the pH relatively constant
7 7
B.
7
C.
7
D.
D. NH4+ to keep the pH relatively constant
8. At the equivalence point in a titration involving 1.0 M solutions, which of the following
combinations would have the lowest conductivity?
A. Nitric acid and barium hydroxideB. Acetic acid and sodium hydroxideC. Sulphuric acid and barium hydroxideD. Hydrochloric acid and sodium hydroxide
9. An indicator HInd produces a yellow colour in 0.1 M HCl solution and a red colour in 0.1 M HCN
solution. Therefore, the following equilibrium:HCN + Ind- ⇄ HInd + CN-
A. Products are favored and the stronger acid is HIndB. Products are favored and the stronger acid is HCNC. Reactants are favored and the stronger acid is HIndD. Reactants are favored and the stronger acid is HCN
10. The indicator methyl red is red in a solution of NaH2PO4. Which of the following equations is consistent with this observation?
A. H2PO4
- + H2O ⇄ HPO42- + H3O+
B. H2PO4- + H2O ⇄ H3PO4
+ OH-
C. HPO42- + H2O ⇄ PO4
3- + H3O+
D. HPO42- + H2O ⇄ H2PO4
- + OH-
11. Consider the following acid-base indicator equilibrium:
HInd(aq) + H2O(l) ⇄ H3O+(aq) ⇄ Ind-
(aq)
Which of the following statements describes the conditions that exist in an indicator equilibrium system at its transition point?
A. [HInd] = [Ind-]B. [Ind-] = [H3O+]C. [HInd] = [H3O+]D. [H3O+] = [H2O]
12. Which of the following titrations would have an equivalence point less that pH 7?
A. NH3 and HClB. NaOH and HNO3
C. Ba(OH)2 and H2SO4
D. KOH and CH3COOH
Web Review of Acids
1. List five properties of:
a) acids
b) bases
2. What ion is produced when an acid reacts with water? A base?
3. Define:
Conjugate
Arhenius strong acid
Bronsted weak acid
Bronsted strong base
Ionization of water
Equivalence point
Transition point
Buffer
Hydrolysis.
4. Identify the acids or bases in the following equation. Are the reactants or products favoured?
HC03- + HF ⇄ H2CO3 + F-
5. Classify each compound as a strong or weak acid or base; acidic or basic anhydride; acidic, basic, or neutral salt; or buffer system. Write an equation to show how each reacts with water.
NH3 AlCl3 H2CO3 HClO4 KCN NH4Cl KOH
SO2 NaF HCl NaI K2O NaOH CO2
NH3 and NH4Cl NaCH3COO and CH3COOH
6. H+is short for _______.
7. Determine the conjugates for each of the bases.
CN- NH3 F- OH- Co(H2O)5(OH)2+
8. Determine the conjugates for each of the acids.
HF HCN Al(H2O)63+ NH4
+ HPO42-
9. Describe a strong and weak acid as well as a strong and weak base in terms of each of the following:
strong acid weak acid strong base weak base
Conductivity
Size of Ka
Size of Kb
Degree of Ionization
pH.
10. Why is the strongest acid in water H3O+? Explain!
11. Why is the strongest base in water OH-? Explain!
12. Which has the higher pH H2S03 or H3BO3? Explain!
13. Which has the higher pH NaCN or NaF? Explain!
14. A buffer has a pH of 9.00. 2 drops of a dilute strong acid are added. Estimate how the pH changes?
15. a) Complete the chart by indicating the pairs required to make buffer solutions. For example HCN (weak acid) and NaCN (salt containing the conjugate of the weak acid) will make a buffer
solution. b) Write an equation the describes the equilibrium for each buffer. c) Circle the formulas that have high concentrations.
Weak Acid or Base Salt
HF
NaCH3COO
NH3
NaCN
H2CO3
KH2PO4
HCH3COO
16. Match each equation with its type:
Acid/base formula equation F- + HOH(l) ⇄ HF + OH-
Acid/base net ionic equation HCl + NaOH →NaCl + HOH(l)
Solubility product ionization equation H+ + OH- → HOH(l)
Hydrolysis of a weak acid AgCl(s) ⇄ Ag+ + Cl-
Hydrolysis of a weak base H20(l) ⇄ H+ + OH-
Ionization of water NH4+ + H20 ⇄ NH3 + H3O+
17. Write the equilibrium expressions for each of the above equations except for the second and third reactions.
18. A student tested the electrical conductivity of two acid solutions. One solution was a strong acid and the other a weak acid. Both solutions had the same conductivity. Explain how this could be possible.
19. Describe in terms of hydrolysis how NaCH3COO can be added to potato chips in order to produce the vinegar flavour.
20. Describe what happens to the H+ and the OH- when the pH increases by 2 units.
21. Describe two gases responsible for acid rain. Write equations to show how they react with water. What gas naturally lowers the pH of normal rain?
22. Complete the following reaction using a formula equation, complete ionic quation and net ionic equation. H2C2O4 + NaOH →
23. Write the equilibrium expression for phosphoric acid in water.
24.
a) An indicator HInd is red in acid and blue in base. Write the equation for the indicator and explain the colours.
b) What is true at the transition point?
c)What is the color of this indicator in a solution of AlCl3?
d) In the above solution, what is larger [HInd] or [Ind-] ?
e) Calculate the Ka for Phenolphthalein.
f) What indicator has a Ka of approximately 1.0 X 10-10?
25. Give an example of a monoprotic, diprotic, and triprotic acid. Write an equation for each to show how they ionize in water.
26. Give the approximate pH of the equivalence for each titration. Choose an appropriate indicator.
Acid Base pH of Equivalence Point Indicator
HCl NaOH
H2SO4 NH3
HF KOH
27. Which of the following will have the lowest pH?
HCLO HClO2 HClO3 HClO4
28. Pick the formulae that are amphiprotic.
H2SO4 H20 F- HCO3-
CO3-2 KOH H2PO4
- HPO4-2
CALCULATIONS
1. Calculate the quantities required to complete the table. In the first row write the general equations for each quantity. Watch your significant figures.
[H+] = [OH-] = pH = pOH =
[H+] [OH-] pH pOH Acid/base/neutral
5.0 x 10-3 M
1.3 x 10-
5M
3.1
2.508
neutral (2sig figs)
2. What volume of 0.20 M H2SO4 is needed to neutralize 50.00 ml 0.30M NaOH?
3. What mass of NaF is required to prepare 100.0 ml of 0.300 M solution?
4. 35.5 mL of 0.300 M NaOH is required to neutralize 10.0 mL of H2SO4. What is the acid concentration?
5. 100.0 mL of .200 M HCl is mixed with 120.0 mL of 0.200M NaOH. Calculate the pH of the resulting solution.
6. Calculate the Ka for phenolphthalein.
7. The Ksp of AgOH is 6.8 x 10-12. Calculate the pH.
8. The OH- concentration in 0.10M NaCN is 2.7 x 10-6 M. Calculate the Kb from this information only.
9. Calculate the pH for 0.20 M HCl.
10. Calculate the pH for 0.10M Ba(OH)2.
11. Calculate the pH for 0.40 M HCN.
12. Calculate the pH for 0.40 M Na2CO3.
13. What is the pH for 0.30 M NaCl?
14. Calculate the pH of 0.20 M NH3.
15. Calculate the pH of 0.20 M NH4Cl.
16. Show by calculation if H2PO4- is an acid or base (compare the Kb and Ka).
17. Calculate the pH of a saturated solution of Mg(OH)2 if the Ksp is 1.2 X 10-11.
18. A 0.50 M NH3 solution is found to have a OH- concentration of 1.86 x 10-3 M. Using this data only calculate the Kb.
19. A 0.18 M acid HX has a pH of 2.40. What is the Ka?
20. The following data were recorded when 25.00 mL of H2SO4 were titrated with 0.1030 M NaOH. The volumes of NaOH used in three runs were: 46.06 mL, 44.52 mL, 44.54 mL. Calculate the acid concentration.
21. The following data were recorded when 10.00ml of NaOH were titrated with 0.1030M H2SO4. The volumes of H2SO4 used in three runs were: 12.55 mL, 12.55 mL, 12.10 mL. Calculate the base concentration.
Acids Practice Test # 1 1. An equation representing the reaction of a weak acid with water is
A. HCl + H2O ⇄ H3O+ + Cl-
B. NH3 + H2O ⇄ NH4+ + OH-
C. HCO3- H2O ⇄ H2CO3 + OH-
D. HCOOH + H2O ⇄ H3O+ + HCOO-
2. The equilibrium expression for the ion product constant of water is
A. Kw = [H3O + ][OH - ] [H2O]
B. Kw = [H3O+]2[O2]
C. Kw = [H3O+][OH-]
D. Kw = [H3O+]2[O2-]
3. Consider the following graph for the titration of 0.1 M NH3 with 1.0 M HCl.
Volume HCl added
pH
14
7
0
I
II
III
IV
A buffer solution is present at point
A. IB. IIC. IIID. IV
4. Consider the following equilibrium system for an indicator: HInd + H2O ⇄ H3O+ + Ind-
Which two species must be of two different colours in order to be used as an indicator?
A. HInd and H2OB. HInd and Ind-
C. H3O+ and Ind-
D. Hind and H3O+
5. Which of the following indicators is yellow at pH 10.0?
A. methyl redB. phenol redC. thymol blueD. methyl violet
6. A sample containing 1.20 x 10-2 mole HCl is completely neutralized by 100.0 mL of Sr(OH)2.
What is the [Sr(OH)2]?
A. 6.00 x 10-3 MB. 6.00 x 10-2 MC. 1.20 x 10-1 MD. 2.4 x 10-1 M
7. Which of the following titrations will have the highest pH at the equivalence point?
A. HBr with NH3
B. HNO2 with KOHC. HCl with Na2CO3
D. HNO3 with NaOH 8. An Arrhenius acid is defined as a chemical species that
A. is a proton donor.B. is a proton acceptor.C. produces hydrogen ions in solution.D. produces hydroxide ions in solution.
9. Consider the following acid-base equilibrium system:
HC2O4- + H2BO3
- ⇄ H3BO3 + C2O42-
Identify the Bronsted-Lowry bases in this equilibrium.
A. H2BO3- and H3BO3
B. HC2O4- and H3BO3
C. HC2O4- and C2O4
2-
D. H2BO3- and C2O4
2-
10. The equation representing the predominant reaction between NaCH3COO with water is
A. CH3COO- + H2O ⇄ CH3COOH + OH-
B. CH3COO- + H2O ⇄ H2O + CH2COO2- C. CH3COOH + H2O ⇄ H3O+ + CH3COO- D. CH3COOH + H2O ⇄ CH3COOH2
+ + OH-
11. Which of the following solutions will have the lowest electrical conductivity?
A. 0.10 M HFB. 0.10 M NaFC. 0.10 M H2SO3
D. 0.10 M NaHSO3 12. Which of the following is the strongest Bronsted-Lowry base?
A. NH3
B. CO32-
C. HSO3-
D. H2BO3-
13. A 1.0 x 10-4 M solution has a pH of 10.00. The solute is a
A. weak acidB. weak baseC. strong acid]D. strong base
14. The ionization of water at room temperature is represented by
A. H2O ⇄ 2H+ + O2-
B. 2H2O ⇄ 2H2 + O2
C. 2H2O ⇄ H2 + 2OH-
D. 2H2O ⇄ H3O+ + OH-
15. Addition of HCl to water causes
A. both [H3O+] and [OH-] to increaseB. both [H3O+] and [OH-] to decreaseC. [H3O+] to increase and [OH-] to decreaseD. [H3O+] to decrease and [OH-] to increase
16. Consider the following:
I. H2SO4
II. HSO4-
III. SO42-
Which of the above is/are present in a reagent bottle labeled 1.0 M H2SO4?
A. I onlyB. I and II onlyC. II and III onlyD. I, II, and III
17. The pH of 0.10 M KOH solution is
A. 0.10B. 1.00C. 13.00D. 14.10
18. An indicator changes colour in the pH range 9.0 to 11.0. What is the value of the Ka for the
indicator?
A. 1 x 10-13
B. 1 x 10-10
C. 1 x 10-7
D. 1 x 10-1
19. Which of the following are amphiprotic in aqueous solution?
I. HBrII. H2OIII. HCO3
-
IV. H2C6H5O7-
A I and II onlyB. II and IV onlyC. II, III, and IV onlyD. I, II, III, and IV
20. Which of the following always applies at the transition point for the indicator Hind?
A. [Ind-] = [OH-]B. [HInd] = [Ind-]C. [Ind-] = [H3O+]D. [HInd] = [H3O+]
21. Calculate the [H3O+] of a solution prepared by adding 10.0 mL of 2.0 M HCl to 10.0 mL of 1.0 M
NaOH.A. 0.20 MB. 0.50 MC. 1.0 MD. 2.0 M
22. Both acidic and basic solutions
A. taste sourB. feel slipperyC. conduct electricity
D. turn blue litmus red 23. The conjugate acid of HPO4
2- is
A. PO43-
B. H2PO4-
C. H2PO42-
D. H2PO43-
24. What is the value of the Kw at 25 oC?
A., 1.0 x 10-14
B. 1.0 x 10-7
C. 7D. 14
25. Consider the following equilibrium: 2H2O(l) ⇄ H3O+
(aq) + OH-(aq)
A small amount of Fe(H2O)63+ is added to water and equilibrium is re-established. Which of the
following represents the changes in ion concentrations?
[H3O+] [OH-]
A. increases increasesB. increases decreasesC. decreases decreasesD. decreases increases
26. Consider the following equilibrium for an indicator: HInd + H2O ⇄ H3O+ + Ind-
In a solution of pH of 6.8, the colour of bromthymol blue is
A. blue because [HInd] = [Ind-]B. green because [HInd] = [Ind-]C. green because [HInd] < [Ind-]D. yellow because [HInd] > [Ind-]
27. The indicator with Ka = 4 x 10-8 is
A. neutral redB. methyl redC. indigo carmineD. phenolphthalein
28. In a titration a 25.00 mL sample of Sr(OH)2 is completely neutralized by 28.60 mL of 0.100 M
HCl. The concentration of the Sr(OH)2 is
A. 1.43 x 10-3 MB. 2.86 x 10-3 MC. 5.72 x 10-2 MD. 1.14 x 10-1 M
29. A student mixes 15.0 mL of 0.100 M NaOH with 10.0 mL of 0.200 M HCl. The resulting solution
is
A. basicB. acidicC. neutralD. amphiprotic
30. Which of the following salts will dissolve in water to produce a neutral solution?
A. LiFB. CrCl3
C. KNO3
D. NH4Cl 31. What is the value of the Kb for HC6H5O7
2-?
A. 5.9 x 10-10
B. 2.4 x 10-8
C. 4.1 x 10-7
D. 1.7 x 10-5
32. The pOH of 0.015 M HCl solution is
A. 0.97B. 1.80C. 12.18D. 13.03
33. Which of the following will produce an acidic solution?
A. NaClB. NH4NO3
C. Ca(NO3)2
D. Ba(NO3)2 34. Which of the following salts will dissolve in water to produce an acid solution?
A. LiFB. CrCl3
C. KNO3
D. NaCl 35. Which of the following salts will dissolve in water to produce a basic solution?
A. LiFB. CrCl3
C. KNO3
D. NH4Cl36. A student mixes 400 mL of 0.100 M NaOH with 100 mL of 0.200 M H2SO4. The resulting
solution has a pH ofA. 14.000B. 0.000C. 13.800D. 7.000
37. A student mixes 500 mL of 0.400 M NaOH with 500 mL of 0.100 M H2SO4. The resulting solution has a pH of
A. 14.000B. 0.000C. 13.000D. 7.000
38. The strongest acid in water is
A. HClO4
B. HIC. HFD. H3O+
39. The formula that has the highest pH in water is
A. HFB. H2CO3
C. H2C2O4
D. HCN39. The formula that has the highest pH in water is
A. NaFB. NaClC. H2C2O4
D. NaCN Subjective 1. A chemist prepares a solution by dissolving the salt NaCN in water.
a) Write the equation for the dissociation reaction that occurs.
b) Write the equation for the hydrolysis reaction that occurs.
c) Calculate the value of the equilibrium constant for the hydrolysis 2. A 3.50 x 10-3 M sample of unknown acid, HA has a pH of 2.90. Calculate the value of the Ka and
identify this acid.
3. Calculate the mass of NaOH needed to prepare 2.0 L of a solution with a pH of 12.00. 4. A 1.00 M OCl- solution has an [OH-] of 5.75 x 10-4 M. Calculate the Kb for OCl-. 5. Calculate the pH of a solution prepared by adding 15.0 mL of 0.500 M H2SO4 to 35.0 mL of 0.750
M NaOH.
6. Determine the pH of a 0.10 M solution of hydrogen cyanide. 7. Determine the pH of 0.100 M NH3.
8. Determine the pH of a saturated solution of Mg(OH)2.
Acids Practice Test # 2 1. What colour would 1.0 M HCl be in an indicator mixture consisting of phenol red and
thymolphthalein?
A redB blueC yellowD colourless
2. During a titration, what volume of 0.500 M KOH is necessary to completely neutralize 10.0 mL of
2.00 M CH3COOH?
A 10.0 mLB 20.0 mLC 25.0 mLD 40.0 mL
3. Which indicator has a Ka = 1.0 x 10-6?
A neutral redB thymol blueC thymolpthaleinD chlorophenol red
4. Acid is added to a buffer solution. When equilibrium is reestablished the buffering effect has
resulted in [H3O+]
A increasing slightlyB decreasing slightlyC increasing considerablyD decreasing considerably
5. A buffer solution will form when 0.10 M NaF is mixed with an equal volume of
A 0.10 M HFB 0.10 M HClC 0.10 M NaClD 0.10 M NaOH
6. Which of the following statements applies to 1.0 M NH3(aq) but not to 1.0 M NaOH(aq)?
A partially ionizesB neutralizes an acidC has a pH greater than 7D turns bromocresol green from yellow to blue
7. In which of the following are the reactants favoured?
A HNO2 + CN- ⇄ NO2- + HCN
B H2S + HCO3- ⇄ HS- + H2CO3
C H3PO4 + NH3 ⇄ H2PO4- + NH4
+
D CH3COOH + PO43- ⇄ CH3COO- + HPO4
2-
8. What is the pOH of a solution prepared by adding 0.50 moles of NaOH to prepare 0.50 L of
solution?
A 0.00B 0.30C 14.00D 13.70
9. What is the [H3O+] in a solution with a pH = 5.20?
A 1.4 x 10-14
B 1.6 x 10-9
C 6.3 x 10-6
D 7.1 x 10-1
10. Consider the following equilibrium: 2H2O(l) + energy ⇄ H3O+
(aq) + OH-(aq)
What will cause the pH to increase and the Kw to decrease?
A adding a strong acidB adding a strong baseC increasing the temperatureD decreasing the temperature
11. The complete neutralization of 15.0 mL of KOH requires 0.0250 moles H2SO4. The [KOH] was
A 1.50 MB 1.67 MC 3.33 MD 6.67 M
12. What is the [H3O+] at the equivalence point for the titration between HBr and KOH?
A 1.0 x 10-9 MB 1.0 x 10-7 MC 1.0 x 10-5 MD 0.0 M
13. Which of the following would form a buffer solution when equal moles are mixed together?
A HCl and NaClB HCN and NaCNC KNO3 and KOHD Na2SO4 and NaOH
14. Which of the following acids has the weakest conjugate base?
A HIO3
B HNO2
C H3PO4
D CH3COOH 15. When 10.0 ml of 0.10 M HCl is added to 10.0 mL of water, the concentration of H3O+ in the final
solution is
A 0.010 MB 0.050 MC 0.10 MD 0.20 M
16. The conjugate base of an acid is produced by
A adding a proton to the acidB adding an electron to the acidC removing a proton from the acidD removing an electron from the acid
17. Which of the following represents the predominant reaction between HCO3
- and water?
A 2HCO3- ⇄ H2O + 2CO2
B HCO3- + H2O ⇄ H2CO3 + OH-
C HCO3- + H2O ⇄ H3O+ + CO3
2-
D 2HCO3- + H2O ⇄ H3O+ + CO3
2- + OH- + CO2
18. Water acts as an acid when it reacts with
I CN-
II NH3
III HClO4
IV CH3COO-
A I and IV onlyB II and III onlyC I, II, and IVD II, III, and IV
19. In a solution of 0.10 M H2SO4, the ions present in order of decreasing concentration are
A [H3O+] > [HSO4-] > [SO4
2-] > [OH-]B [H3O+] > [SO4
2-] > [HSO4-] > [OH-]
C [OH-] > [SO42-] > [HSO4
-] > [H3O+]D [SO4
2-] > [HSO4-] > [OH-] > [H3O+]
20. Which of the following will dissolve in water to produce an acidic solution?
A CO2
B CaOC MgOD Na2O
21. Which of the following solutions will have a pH = 1.00?
I 0.10 M HClII 0.10 M HNO2
III 0.10 M NaOH
A I onlyB II onlyC I and II onlyD I, II, and III
22. Ka for the acid H2AsO4
- is 5.6 x 10-8. What is the value of the Kb for HAsO42-?
A 5.6 x 10-22
B 3.2 x 10-14
C 1.8 x 10-7
B 2.4 x 10-4
23. In a titration, which of the following has a pH = 7.00 at the equivalence point?
A NH3 and HNO3
B KOH and HClC NaF and HClD Ca(OH)2 and CH3COOH
24. Which of the following salts dissolves to produce a basic solution?
A KClB NH4BrC Fe(NO3)3
D LiCH3COO 25. Calculate the pH in a 0.200 M solution of Sr(OH)2.
A 1.40B 1.70
C 13.30D 13.60
26. Which of the following solutions has a pH less than 7.00?
A NaClB LiOHC NH4NO3
D KCH3COO 27. Which of the following will form a basic aqueous solution?
A HSO3-
B HSO4-
C HPO42-
D HC2O4-
28. What is the approximate Ka value for the indicator chlorophenol red?
A 1 x 10-14
B 1 x 10-8
C 1 x 10-6
D 1 x 10-3
29. What is the approximate pH of the solution formed when 0.040 mol NaOH is added to 2.00 L of
0.020 M HCl?
A 0.00B 1.40C 1.70D 7.00
30. In which one of the following equations are the Bronsted acids and bases all correctly identified?
Acid + Base ⇄ Base + Acid
A H2O2 SO3
2- ⇄ HO2- HSO3
-
B H2O2 SO32- ⇄ HSO3
- HO2-
C SO32- H2O2 ⇄ HO2
- HSO3-
D SO32- H2O2 ⇄ HSO3
- HO2-
31. Which of the following titrations will always have an equivalence point at a
pH > 7.00?
A weak acid with a weak baseB strong acid with a weak base
C weak acid with a strong baseD strong acid with a strong base
32. A buffer solution may contain equal moles of
A weak acid and strong baseB strong acid and strong baseC weak acid and its conjugate baseD strong acid and its conjugate base
33. A gas which is produced by burning coal and also contributes to the formation of acid rain is
A H2
B O3
C SO2
D C3H8
34. Which of the following 1.0 M salt solutions is acidic?
A BaSB NH4ClC Ca(NO3)2
D NaCH3COO 35. Which of the following statements applies to 1.0 M NH3(aq) but not to 1.0 M NaOH(aq)?
A partially ionizesB neutralizes and acidC has a pH greater than 7D turns bromcresol green from yellow to blue
36. When the indicator thymol blue is added to 0.10 M solution of an unknown acid, the solution is
red. The acid could be
A HFB H2SC HCND HNO3
Subjective 1. Calculate the pH of the solution prepared by mixing 15.0 mL of 0.50 M HCl with 35.0 mL 0.50 M
NaOH.
2. Calculate the [OH-] in 0.50 M NH3(aq).3. A titration was performed by adding 0.175 M H2C2O4 to a 25.00 mL sample of NaOH.
The following data was collected.
Trial 1 Trial 2 Trial 3 Final volume of H2C2O4 from burette (mL) 23.00 39.05 20.95Initial volume of H2C2O4 from burette (mL) 4.85 23.00 5.00 Calculate the [NaOH] 4. A 250.0 mL sample of HCl with a pH of 2.000 is completely neutralized with 0.200 M NaOH.
What volume of NaOH is required to reach the stoichiometric point.
5. If the HCl were titrated with 0.200 M NH3(aq) instead of 0.200 M NaOH, how would the volume of base required to reach the equivalence point compare with the volume calculated in the last question? Explain your answer.
6. Consider the following salt ammonium acetate, NH4CH3COO. a) Write the equation for the dissociation of NH4CH3COO.
b) Write the equations for the hydrolysis reactions that occur. c) Explain why a solution of NH4CH3COO has a pH =7.00. Support your answer with a calculation. 7. Consider the following equilibrium: energy + 2H2O ⇄ H3O+ + OH-
a) Explain how pure water can have a pH = 7.30.
b) Calculate the value of the Kw for the sample of water with a pH = 7.30.
Acids, Bases and Salts Unit Plan
Notes- double click on the lesson number and download Power Point Viewer if you do not have it.
Worksheets Quiz
1. Properties of Acids, Bases & Salts WS 1
2. Arrhenius, Bronsted Acids, Ka and Strength. WS 2 1
3. Arrhenius, Bronsted Bases, Kb and Strength WS 3
4. Acid & Base Reactions. Amphiprotic. Acid Chart. WS 4 2
5. Leveling effect, Anhydrides and Relationships. WS 5
6. Hydrolysis of Salts. Quiz. WS 6 3
7. Acid, Base & Salt Reactions. Hydrolysis. WS 7
ClassifyingEverything Activity
8. Yamada’s Indicator Lab. Hydrolysis. WS 8 4
9. Ionization of Water, [H+] & [ OH- ], pH scale. Hydrolysis Quiz
1Hydrolysis Quiz 2 Hydrolysis Quiz 3
10. pH for Strong Acids and Bases. Hydrolysis Quiz WS 9
11. pH Calculations for Weak Acids. WS 10 5
12. Ka from pH for Weak Acids. WS 11
13. Indicators Lab.
14. Kbs from Kas for Weak Bases. WS 12 6
15. pH for Weak Bases pH [H+] [ OH-] Relationships. WS 13
16.Amphiprotic Ions- Kas and Kbs. WS 14 7
17. Titration Lab. Primary Standards. Acids
Midtermreview Test
18. Titration Lab
19. Buffers & Indicators WS 15 8
20. Titration Curves. WS 16 9/10
21. Review #1 Web Site Review Sheet Quizmebc
22. Review #2 Practice Test # 1 Practice Test 2
23. Test
Text book Hebden Read Unit IV
WS #1 Properties of Acids and Bases1. Add 1 drop of each solution to 1 drop of the acid-base indicator in a spot plate. Record the colour in the data table below. Describe each solution as an acid or base in the space provided. Write the acid colour and base colour in the table below. Indicator--> Phenolphthalein Litmus Bromothymol Blue Acid or Base
Solution:HCl Clear Red Yellow Acid NaOH Pink Blue Blue Base Vinegar Clear Red Yellow Acid Ammonia Pink Blue Blue Base (NH3)Lemon Juice Clear Red Yellow Acid Seven-up Clear Red Yellow Acid Baking Soda Pink Blue Blue Base(NaHCO3) Indicator Acid Colour Base Colour Phenolphthalein Clear Pink Litmus Red Blue Bromothymol Blue Yellow Blue Wash and dry your spot plate before going on to step 2.2. Wear safety goggles for this experiment. Pour approximately 50 mL of 1 M HCl into a fleaker. Add one level spoonful of Mg and cover with a plastic funnel. After 1 minute and not before light the top of the funnel using a match. Write the equation for the reaction below.2HCl(aq) + Mg(s) → H2(g) + MgCl2(aq)
Wash and dry your fleaker before going on to step 3.3. Taste a lemon and describe the taste in one word Sour 4. Taste some baking soda and describe the taste in one word. Bitter 6. Test two drops of HCl for conductivity in a spot plate. Result: Good Conductor Write an equation that accounts for the conductivity of HCl.
HCl → H+ + Cl-
7. Test two drops of NaOH for conductivity in a spot plate. Result: Good Conductor Write an equation that accounts for the conductivity of NaOH (dissociation).NaOH → Na+ + OH- Clean, dry and put away the spot plate8. List five properties of acids that are in your textbook.Acids conduct electricity, taste sour, neutralize bases, change the color of indicators, and react with some
metals to produce hydrogen.
9. List five properties of bases that are in your textbook.Bases conduct electricity, taste bitter, neutralize acids, change the color of indicators, and feel slippery.10. Make some brief notes on the commercial acids: HCl and H2SO4 (p 112).HCl H2SO4
11. Make some brief notes on the commercial base NaOH (p 114). 12. Describe the difference between a concentrated and dilute acid (hint: concentration refers to the molarity). Describe their relative conductivities.Concentrated means relatively high molarity and dilute means relatively low molarity.
13. Describe the difference between a strong and weak acid (p 121-124). Use two examples and write equations to support your answer. Describe their relative conductivities.A strong acid completely ionizes and a weak acid partially ionizes.
14. Describe a situation where a strong acid would have the same conductivity as a weak acid (hint: think about concentration).A weak acid could have a high molarity and the strong acid could have a low molarity.
Complete this worksheet for next period. Read pages 107-126 for homework.
WS #2 Conjugate Acid-Base Pairs Complete each acid reaction. Label each reactant or product as an acid or base. The first on is done for you.1. HCN + H2O ⇄ H3O+ + CN-
Acid Base Acid Base 2. H3C6O7 + H2O ⇄ H2C6O7
- + H3O+
acid base base acid 3. H3PO4 + H2O ⇄ H2PO4
- + H3O+
acid base base acid 4. HF + H2O ⇄ F- + H3O+
acid base base acid 5. H2CO3 + H2O ⇄ HCO3
- + H3O+
acid base base acid
6. NH4+ + H2O ⇄ NH3
+ H3O+
acid base base acid 7. CH3COOH + H2O ⇄ CH3COO- + H3O+
acid base base acid 8. HCl + H2O → Cl- + H3O+
acid base base acid 9. HNO3 + H2O → H3O+ + NO3
-
acid base acid base Write the equilibrium expression (Ka) for the first seven above reactions. 10. Ka = [H3O+] [ CN-] 14. Ka = [H3O+] [HCO3
-] [HCN] [H2CO3]
11. Ka = [H3O+] [H2C6O7-] 15. Ka = [H3O+] [NH3]
[H3C6O7] [NH4+]
12. Ka = [H3O+] [H2PO4
-] 16. Ka = [H3O+] [CH3COO-] [H3PO4] [CH3COOH]
13. Ka = [H3O+] [F-]
[HF]17. Which acids are strong? The six on the top of the acid chart are strong.18. What does the term strong acid mean? They complete ionization into ions. Such as: HCl + H2O → Cl- + H3O+
19. Why is it impossible to write an equilibrium expression for a strong acid? Ka = [H3O+] [Cl-][HCl] is equal to zero and in math numbers divided by zero are undefined. [HCl]20. Which acids are weak?
All acids listed on the acid chart below the top six. 23. What does the term weak acid mean?Incomplete ionization. Such as: HF + H2O ⇄ F- + H3O+
24. Explain the difference between a strong and weak acid in terms of electrical conductivity.A strong acid is a good conductor. A weak acid conducts but not so good.
Acid Conjugate Base Base Conjugate Acid 14. HNO2 NO2
- 15. HCOO- HCOOH 16. HSO3
- SO32- 17. IO3
- HIO3 18. H2O2 HO2
- 19. NH3 NH4+
20. HS- S2- 21. CH3COO- CH3COOH 22. H2O OH- 23. H2O H3O+
Define:
22. Bronsted acid- a proton donor23. Bronsted base- a proton acceptor24. Arrhenius acid- a substance that ionizes in water to produce H+
25. Arrhenius base- a substance that ionizes in water to produce OH-
26. List the six strong acids. HCLO4 HI HBr HCl HNO3 H2SO4
27. Rank the acids in order of decreasing strength. HCl HSO4
- H3PO4 HF H2CO3 H2S
28. What would you rather drink vinegar or hydrochloric acid? Explain.Vinegar. It is a weak acid and produces much less H30+ ion which is the corrosive part of an acid.
Making a Universal Indicator Lab Activity Mix the following indicators in a 50 mL beaker. Stir with an eyedropper.
Yamada’s Universal Indicator5 drops thymol blue
8 drops methyl orange5 drops phenolphthalein
10 drops bromothymol blue20 drops of water
Part 1. In a spot plate add two drops of each buffer solution to a cell. Add one drop of Yamada’s indicator to each. Record each colour on another lab sheet by colouring the cell the same colour. Make sure you are accurate because you will use this information for future labs and projects. <---------- Acid Strength Increases ------ Neutral ----Base Strength Increases ------->
pH = 1 pH = 3 pH = 5 pH = 7 pH = 9 pH =11 pH = 13
Part 2. Test a drop of HCl, CH3COOH, NaOH, NH3, NaHCO3, H2CO3 and NaCl solution for conductivity. Test with your Universal Indicator. Record the pH of each. Test with your Universal
Indicator. Explain your results with what you know about acids and bases. Classify each as a strong or weak acid or base or neutral, acidic, or basic salt. Write an equation for each to show how they ionize in water using the Bronsted (Chemistry 12) definition of an acid. Wash and dry your acetate.Wash and return your eyedropper.Wash and return your beaker.
Wash your hands.
ResultsCompound Conductivity pH Classification HCl good 1 strong acid
CH3COOH ok 3 weak acid
NaOH good 13 strong base
NH3 ok 11 weak base
NaHCO3 good 11 weak base
H2CO3 ok 3 weak acid
NaCl good 7 neutral salt
WS #3 Conjugate Acid-Base Pairs
Complete each reaction. Label each reactant or product as an acid or base.
1. HCN + H2O ⇄ H3O+ + CN-
2. HCl + H2O ⇄ H3O+ + Cl-
3. HF + H2O ⇄ H3O+ + F-
4. F- + H2O ⇄ HF + OH-
5. HSO4- + H2O ⇄ H3O+ + SO4
2-
(acid)
6. NH4+ + H2O ⇄ H3O+ + NH3
7. HPO42- + H2O ⇄ H2PO4
- + OH-
(base)
Acid Conjugate Base Base Conjugate Acid 8. HCO3
- CO32- 9. CH3COO- CH3COOH
10. HPO4-2 PO4
3- 11. IO3- HIO3
12. H2O OH- 13. NH2- NH3
14. HS- S2- 15. C2H5SO73- HC2H5SO7
2- 16. Circle the strong bases.
Fe(OH)3 NaOH CsOH KOHZn(OH)2 Sr(OH)2 Ba(OH)2 Ca(OH)2
17. Rank the following acids from strongest to weakest.
H2S CH3COOH H2PO4
- HI HCl HF5 4 6 1 1 3
18. Rank the following bases from the strongest to weakest.
H2O F- NH3 SO32- HSO3
- NaOH6 4 2 3 5 1
19. i) Write the reaction of H3BO3 with water (remove one H+ only because it is a weak acid).
H3BO3 + H2O ⇄ H2BO3- + H3O+
ii) Write the Ka expression for the above.
[H3O+] [H2BO3-]
Ka = [H3BO3]
iii) What is the ionization constant for the acid (use your table). Ka = 7.3 x 10-10
20. List six strong acids. HClO4 HI HBr HCl HNO3
H2SO4
21. List six strong bases. NaOH KOH LiOH RbOH CsOH
Ba(OH)2
22. List six weak acids in order of decreasing strength (use your acid/base table). HIO3 H2C2O4 H2SO3 HSO4
- H3PO4 HNO2
23. List six weak bases in order of decreasing strength (use your acid/base table). PO4
3- CO32- CN- NH3 H2BO3
- HS-
WS #4 Using Acid Strength TablesAcid-base reactions can be considered to be a competition for protons. A stronger acid can cause a weaker acid to act like a base. Label the acids and bases. Complete the reaction. State if the reactants or products are favoured.
1. HSO4- + HPO4
2- ⇄ SO42-
+ H2PO4-
Acid Base Base AcidProducts are favoured as HSO4
- is a stronger acid than H2PO4-
2. HCN + H2O ⇄ H3O+ + CN-
Acid Base Acid Base Reactants are favoured as H3O+ is a stronger acid than HCN.3. HCO3
- + H2S ⇄ H2CO3 + HS-
Base Acid Acid BaseReactants are favoured as H2CO3 is a stronger acid than H2S4. HPO4
2-+ NH4+ ⇄ H2PO4
- + NH3
Base Acid Acid BaseReactants are favoured as H2PO4
- is a stronger acid than NH4+
5. NH3 + H2O ⇄ NH4+ + OH-
Base Acid Acid BaseReactants are favoured as OH- is a stronger base than NH3
6. H2PO41- + NH3 ⇄ HPO4
2- + NH4+
Acid Base Base Acid
Products are favoured as NH3 is a stronger base than HPO42-
7. HCO3- + HF ⇄ H2CO3 + F-
Base Acid Acid BaseProducts are favoured as HF is a stronger acid than H2CO3
8. Complete each equation and indicate if reactants or products are favoured. Label each acid or base.
HSO4- + HCO3
- ⇄ H2CO3 + SO42- products are favoured
H2PO4
-+ HC03 ⇄ HPO42- + H2CO3 reactants are favoured
HS03
- + HPO42- ⇄ H2PO4
- + SO32- products are favoured
NH3 + HC2O4
- ⇄ NH4+ + C2O4
2- products are favoured 9. Explain why HF(aq) is a better conductor than HCN(aq).
HF is a stronger acid and creates more ions.10. Which is a stronger acid in water, HCl or HI? Explain! Both are strong acids and have the same strength as both completely ionize to from H+.11. State the important ion produced by an acid and a base.
Acid: H+ or H3O+ Base: OH-
12. Which is the stronger base? Which produces the least OH-?F- is the weaker base and produces the least OH- CO3
-2 is the stronger base 13. Define a Bronsted/Lowry acid and base.An acid is a proton donor and a base is a proton acceptor.
14. Define an Arrhenius acid and base.An acid ionizes in water to produce H+ and a base ionizes in water to produce OH-.15. Complete each reaction and write the equilibrium expression.
HF + H2O ⇄ H3O+ + F- Ka= [ H3O+][ F-] Kb= [HF][ OH-] F- + H2O ⇄ HF + OH- [HF] [F-]
16. H2SO4 + 2NaOH → Na2SO4 + 2HOH 17. Define conjugate pairs.Acid base pairs that differ by one proton.18. Give conjugate acids for: HS-, NH3, HPO4
-2, OH-, H2O, NH3, CO3
-2
H2S NH4+ H2PO4
- HOH H3O+ NH4+ HCO3
-
19. Give conjugate bases for: NH4+, HF, H2PO4
-, H3O+, OH-, HCO3-,
H2ONH3 F- HPO4
-2 HOH O2- CO3-2
OH-
WS #5 Acid and Basic Anhydrides
1. What is the strongest acid that can exist in water? Write an equation to show how a stronger acid would be reduced in strength by the leveling effect of water. H3O+ HCl + H2O → H3O+ + Cl-
2. What is the strongest base that can exist in water? Write an equation to show how a stronger base would be reduced in strength by the leveling effect of water. OH- NaOH → Na+ + OH-
3. List three strong acids and three strong bases.HCl HI HClO4 NaOH KOH LiOH 4. Rank the acids in decreasing strength:
HClO4 1 Ka is very large HClO3 2 Ka=1.2x10-2
HClO2 3 Ka=8.0x10-5 HClO 4 Ka=4.4x10-8
5. For an oxy acid what is the relationship between the number of O’s and acid strength? (Compare H2S04
and H2S03) The more O’s the stronger the acid. 6.Which acid is stronger? HI03 or HIO2 7.Which produces more H30+? H2CO3 or HS04
-
8.Which produces more OH-? F- or HC03-
9.Which conducts better NH3 or NaOH (both .1M)? Why?NaOH is a strong acid.
10.Which conducts better HF or HCN (both .1M)? Why?HF is a stronger acid. 11. Compare and contrast a strong and weak acid in terms of degree of ionization, size of ka, conductivity, and concentration of H+.Strong acid: complete ionization, very large Ka, good conductor, high [H+].Weak acid: partial ionization, small Ka, OK conductor, low [H+].Classify each formula as an acid anhydride, basic anhydride, strong acid, weak acid, strong, or weak base.
For each formula write an equation to show how it reacts with water. For anhydrides write two equations.
Formula Classification Reaction 12. Na2O basic anhydride Na2O + H2O → 2NaOH
13. CaO basic anhydride CaO + H2O → Ca(OH)2
14. SO3 acid anhydride SO3 + H2O → H2SO4
15. CO2 acid anhydride CO2 + H2O → H2CO3
16. SO2 acid anhydride SO2 + H2O → H2SO3
17. HCl strong acid HCl + H2O → H3O+ + Cl-
18. NH3 weak base NH3 + H2O ⇄ NH4
+ + OH-
19. NaOH strong base NaOH → Na+ + OH-
20. HF weak acid HF + H2O ⇄ H3O+ + F-
21. H3PO4 weak acid H3PO4 + H2O ⇄ H3O+ + H2PO4
-
WS # 6 Hydrolysis of Salts and Reactions of Acids and BasesDescribe each as an acid, base, neutral salt, acidic salt, or basic salt. For each salt write a parent acid-base
formation equation, dissociation equation, and hydrolysis equation (only for acidic and basic salts). For
acids and bases write an equation to show how each reacts with water.
1. NH3 weak base
NH3 + H2O ⇄ NH4+ + OH-
2. KCl neutral salt
HCl + KOH → KCl + H2O
KCl → K+ + Cl-
3. HNO3 strong acid
HNO3 + H2O → H3O+ + NO3-
4. NaHCO3 basic salt
H2CO3 + NaOH → NaHCO3 + H2O
NaHCO → Na+ + HCO3-
HCO3- + H2O ⇄ H2CO3 + OH-
5. RbOH strong base
RbOH → Rb+ + OH-
6. AlCl3 acid salt
3HCl + Al(OH)3 → AlCl3 + 3H2O
AlCl3 → Al+3 + 3Cl-
Al(H2O)63+ ⇄ Al(H2O)5(OH)2+ + H+
7. H2C2O4 weak acid
H2C2O4 + H2O ⇄ H3O+ + HC2O4-
8. NaC6H5O basic salt
C6H5OH + NaOH → NaC6H5O + H2O
NaC6H5O → Na+ + C6H5O-
C6H5O- + H2O ⇄ C6H5OH + OH-
9. Co(NO3)3 acid salt
3HNO3 + Co(OH)3 → Co(NO3)3 + 3H2O
Co(NO3)3 → Co+3 + 3NO3-
Co(H2O)6
3+ ⇄ Co(H2O)5(OH)2+ + H+
10. Na2CO3 basic salt
H2CO3 + 2NaOH → Na2CO3 + 2H2O
Na2CO3 → 2Na+ + CO3-2
CO3-2 + H2O ⇄ HCO3
- + OH-
WS # 7 Hydrolysis of Salts and Reactions of Acids and Bases Describe each as an acid, base, neutral salt, acidic salt, or basic salt. For each salt write a parent acid-base
formation equation, dissociation equation, and hydrolysis equation (only for acidic and basic salts). For
acids and bases write an equation to show how each reacts with water.
1. NH3 weak base
NH3 + H2O ⇄ NH4+ + OH-
2. NaCl neutral salt
NaCl → Na+ + Cl-
3. HCl strong acid
HCl + H2O → H3O+ + Cl-
4. NaCN basic salt
NaCN → Na+ + CN- CN- + H2O ⇄ HCN + OH-
5. NaOH strong base
NaOH → Na+ + OH- 6. FeCl3 acid salt
FeCl3 → Fe+3 + 3Cl-
Fe(H2O)63+ ⇄ Fe(H2O)5(OH)2+ + H+
7. HF weak acid
HF + H2O ⇄ H3O+ + F-
8. LiHCO3 basic salt
LiHCO3 → Li+ + HCO3-
HCO3- + H2O ⇄ H2CO3 + OH-
9. Fe(NO3)3 acid salt
Fe(NO3)3 → Fe+3 + 3NO3-
Fe(H2O)6
3+ ⇄ Fe(H2O)5(OH)2+ + H+
10. MgCO3 basic salt
MgCO3 → Mg+2 + CO3-2
CO3-2 + H2O ⇄ HCO3
- + OH-
11. H2S weak acid
H2S + H2O ⇄ H3O+ + HS-
12. HF weak acid
HF + H2O ⇄ H3O+ + F-
13. CaI2 neutral salt
CaI2 → Ca+2 + 2I-
14. Mg(OH)2 weak base
Mg(OH)2 ⇄ Mg+2 + 2OH-
15. Ba(OH)2 strong base
Ba(OH)2 → Ba+2 + 2OH-
16. Describe why Tums (CaCO3) neutralizes stomach acid. It is a weak base and will neutralize acid.
basic salt CaCO3 → Ca+2 + CO3
-2 CO3
-2 + H2O ⇄ HCO3- + OH-
17. Describe why Mg(OH)2 is used in Milk of Magnesia as an antacid instead of NaOH.Mg(OH)2 is weak base and releases OH- slowly, whereas NaOH is a strong base which releases OH-
in high concentrations which is corrosive.Mg(OH)2 ⇄ Mg+2 + 2OH-
NaOH → Na+ + OH-
WS #8 Yamada’s Indicator Activity
Acid, Base and Salt LabPurpose:
1) To use Yamada’s Indicator to determine the pH of various acids, bases and salts. 2) To classify compounds as strong acids, weak acids, strong bases, weak bases, neutral salts, acid anhydrides, and basic anhydrides.3) To write reactions for each compound to show how each ionizes, hydrolyzes or reacts with water.
Procedure:1) To a cell in a spot plate add one drop of solution or a very tiny amount of solid. Write the formula of the compound in the data table.2) Add two drops of Yamada’s Indicator. Record the pH of the compound.3) Classify the compound as a strong acid, weak acid, strong base, weak base, neutral salt, acid anhydride, or basic anhydride. Use the formula of the compound as well as the pH.4) Write an equation to show the reaction of anhydrides with water, the hydrolysis of salts, or the ionization of acids or bases.
Data1. Formula of compound Fe(NO3)3
pH 2 Classification acid salt
Reaction or reactions Fe(NO3)3 → Fe+3 + 3NO3
-
Fe(H2O)63+ ⇄ Fe(H2O)5(OH)2+ + H+
2. Formula of compound NaCH3COO
pH 10 Classification basic salt
Reaction or reactions NaCH3COO → Na+ + CH3COO-
CH3COO- + H2O ⇄ CH3COOH + OH-
3. Formula of compound K2HPO4 pH 10 Classification basic salt
Reaction or reactions K2HPO4 → 2K+ + HPO4
-2
HPO4-2+ H2O ⇄ H2PO4
- + OH- 4. Formula of compound HCL
pH 0 Classification strong acid
Reaction or reactions HCl → H+ + Cl-
5. Formula of compound Al2(SO4)3
pH 3 Classification acid salt
Reaction or reactions Al2(SO4)3 → 2Al+3 + 3SO4
-2
Al(H2O)63+ ⇄ Al(H2O)5(OH)2+ + H+
6. Formula of compound Na2CO3
pH 12 Classification basic salt
Reaction or reactions Na2CO3 → 2Na+ + CO3
-2
CO3-2 + H2O ⇄ HCO3
- + OH- 7. Formula of compound P2O5
pH 2 Classification acid anhydride
Reaction or reactions P2O5 + H2O → H2P2O6
H2P2O6 ⇄ H+ + HP2O6-
8. Formula of compound Cu(NO3)2
pH 4 Classification acid salt
Reaction or reactions Cu(NO3)2 → Cu2+ + 2NO3
- Cu(H2O)6
2+ <⇄ Cu(H2O)5(OH)+ + H+
9. Formula of compound Fe2(SO4)3
pH 3 Classification acid salt
Reaction or reactions Fe2(SO4)3 → 2Fe+3 + 3SO4
-2
Fe(H2O)63+ ⇄ Fe(H2O)5(OH)2+ + H+
10. Formula of compound N2O5 pH 0 Classification acid anhydride
Reaction or reactions N2O5 + H2O → H2N2O6 → 2HNO3
HNO3 → H+ + NO3-
11. Formula of compound Ca(OH)2
pH 12
Classification weak base
Reaction or reactions Ca(OH)2 ⇄ Ca+2 + 2OH-
12. Formula of compound KHSO4
pH 2 Classification acid salt
Reaction or reactions KHSO4 → K+ + HSO4
-
HSO4- ⇄ H+ + SO4
2-
13. Formula of compound NaHCO3
pH 10 Classification basic salt
Reaction or reactions NaHCO3 → Na+ + HCO3
-
HCO3- + H2O ⇄ H2CO3
+ OH- 14. Formula of compound CaCO3
pH 10 Classification basic salt
Reaction or reactions CaCO3 → Ca+2 + CO3
-2
CO3-2 + H2O <⇄ HCO3
- + OH- 15. Formula of compound CaO
pH 12 Classification basic anhydride
Reaction or reactions CaO + H2O → Ca(OH)2
Ca(OH)2 ⇄ Ca+2 + 2OH-
16. Formula of compound Al2(SO4)3
pH 3 Classification acidic salt
Reaction or reactions Al2(SO4)3 → 2Al+3 + 3SO4
-2
Al(H2O)63+ ⇄ Al(H2O)5(OH)2+ + H+
17. Formula of compound NaCl pH 7 Classification neutral salt
Reaction or reactions NaCl → Na+ + Cl-
WS # 9 - pH and pOH CalculationsComplete the chart:
[H+] [OH-] pH pOH Acid/base/neutral1. 7.00 x 10-3 M 1.43 x 10-
12M2.155 11.845 acid
2. 1.14 x 10-
13M8.75 x 10-2
M12.942 1.058 base
3. 4.7x 10-8M 2.1 x 10-7M 7.33 6.67 base4. 1.0 x 10-10M 1.0 x 10-4M 10.00 4.00 base5. 1.0 x 10-7M 1.0 x 10-7M 7.00 7.00 Neutral (2sig
figs)6. 5 x 10-4M 2 x 10-11M 3.3 10.7 acid7. 2.80 x 10-3M 3.57 x 10-
12M2.553 11.447 acid
8. 5.0 x 10-10 M 2.0 x 10-5M 9.30 4.70 base9. 2.1 x 10-5M 4.7 x 10-10 M 4.67 9.33 acid
10. Calculate the [H+], [OH-] , pH and pOH for a 0.20 M Ba(OH)2 solution. Ba(OH)2 ⇄ Ba+2 + 2OH-
0.20M 0.20M 0.40M [OH-] = 0.40 M [H+] = 2.5 x 10-14 M pH = 13.60 pOH = 0.40
11. Calculate the [H+], [OH-], pH and pOH for a 0.030 M HCl solution.
HCl → H+ + Cl-
0.030M 0.030M
[H+] = 0.030M [OH-] = 3.3 x 10-13 M pH = 1.52 pOH = 12.48
14. Calculate the [H+], [OH-], pH and pOH for a 0.20 M NaOH solution.
NaOH → Na+ + OH-
0.20M 0.20M 0.20M
[OH-] = 0.20 M [H+] = 5.0 x 10-14 M pH = 13.30 pOH = 0.70
13. 300.0 mL of 0.20 M HCl is added to 500.0 mL of water, calculate the pH of the solution.
HCl → H+ + Cl-
300.0 x 0.20 M = 0.075 M 0.075 M pH = -Log[H+] = 1.12
800.0 14. 200.0 mL of 0.020 M HCl is diluted to a final volume of 500.0 mL with water, calculate the pH.
HCl → H+ + Cl-
200.0 x 0.020 M = 0.0080 M 0.0080 M pH = -Log[H+] = 2.10
500.0
15. 150.0 mL of 0.40 M Ba(OH)2 is placed in a 500.0 mL volumetric flask and filled to the mark with water, calculate the pH of the solution.
Ba(OH)2 → Ba2+ + 2OH-
150.0 x 0.40 M = 0.12 M 0.12 M 0.24 M500.0
pOH = -Log[OH-] = 0.62 pH = 14.00 - pOH = 13.38
16. 250.0 mL of 0.20 M Sr(OH)2 is diluted by adding 350.0 mL of water, calculate the pH of the solution.
Sr(OH)2 → Sr2+ + 2OH-
250.0 x 0.20 M = 0.083 M 0.083 M 0.1667 M600.0
pOH = -Log[OH-] = 0.78 pH = 14.00 - pOH = 13.22
17. Calculate the pH of a saturated solution of 0.40M Ba(OH)2 when 25 mL was added 25.0 mL of water.
Ba(OH)2 ⇄ Ba2+ + 2OH-
(25)0.40 M 0.20 M0.40 M (50)
[OH-] = 0.40 pOH = 0.40
pH = 13.60
WS # 10 pH Calculations for Weak Acids1. Calculate the [H+], [OH-], pH, and pOH for 0.20 M HCN.
HCN ⇄ H+ + CN-
I 0.20 M 0 0
C x x x
E 0.20 - x x x
x2
= 4.9 x 10-10
0.20 - x
x = 9.9 x 10-6 M
[H+] = 9.9 x 10-6 M [OH-] = 1.0 x 10-9 M pH = 5.00 pOH = 9.00 2. Calculate the [H+], [OH-], pH, and pOH for 2.20 M HF.
[H+] = 2.8 x 10-2 M [OH-] = 3.6 x 10-13 M pH = 1.56 pOH = 12.443. Calculate the [H+], [OH-], pH, and pOH for 0.805 M CH3COOH.
[H+] = 3.8 x 10-3 M [OH-] = 2.6 x 10-12 M pH = 2.42 pOH = 11.584. Calculate the [H+], [OH-], pH, and pOH for 1.65 M H3BO3.
[H+] = 3.5 x 10-5 M [OH-] = 2.9 x 10-10 M pH = 4.46 pOH = 9.54 5. Calculate the pH of a saturated solution of Mg(OH)2.
Mg(OH)2 ⇄ Mg2+ + 2OH-
x x 2x
Ksp = [Mg2+][OH-]2
5.6 x 10-12 = 4x3
[OH-] = 2x = 2.22 x 10-4 M pH = 10.35
6. Calculate the pH of a 0.200 M weak diprotic acid with a Ka = 1.8 x 10-6.
H2X ⇄ H+ + X- Note- only lose one proton for any weak acid!!
I 0.200 M 0 0
C x x x
E 0.20 - x x x
Small Ka approximation x = 0
x 2 = 1.8 x 10-6
0.20
x = 6.0 x 10-4 M
[H+] = 6.0 x 10-4 M [OH-] = 1.7 x 10-11 M pH = 3.22 pOH = 10.78 7. 350.0 mL of 0.20M Sr(OH)2 is diluted by adding 450.0 mL of water, calculate the pH of the solution.
Sr(OH)2 → Sr2+ + 2OH-
350.0 x 0.20 M = 0.0875 M 0.0875 M 0.175 M800.0
pOH = -Log[OH-] = 0.76 pH = 14.00 - pOH = 13.24
WS # 11 pH Calculations for Weak Acids
1. The pH of 0.20 M HCN is 5.00. Calculate the Ka for HCN. Compare your calculated value with that in the table.
[H+] = 10-pH = 10-5.00 = 0.0000100 M HCN ⇄ H+ + CN-
I 0.20 M 0 0
C 0.0000100 M 0.0000100 M 0.0000100 M
E 0.19999 0.0000100 M 0.0000100 M
Ka = (0.0000100)2 = 5.0 x 10-10
0.19999
Ka = 5.0 x 10-10
2. The pH of 2.20 M HF is 1.56. Calculate the Ka for HF. Compare your calculated value with that in the table.
Ka = 3.5 x 10-4
3. The pH of 0.805 M CH3COOH is 2.42. Calculate the Ka for CH3COOH. Compare your calculated value with that in the table.
Ka = 1.8 x 10-5
4. The pH of 1.65 M H3BO3 is 4.46. Calculate the Ka for H3BO3. Compare your calculated value with that in the table.
Ka = 7.3 x 10-10
5. The pH of a 0.10 M diprotic acid is 3.683, calculate the Ka and identify the acid.
[H+] = 10-pH = 10-3.683 = 0.0002075 M H2X ⇄ H+ + HX- Note a diprotic weak acid only loses
one proton.
I 0.10 M 0 0
C 0.0002075 M 0.0002075 M 0.0002075 M
E 0.09979 0.0002075 M 0.0002075 M
Ka = (0.0002075)2 = 4.3 x 10-7
0.09979
Ka = 4.3 x 10-7 Carbonic acid H2CO3 Look up on Ka Table. 6. The pH of 0.20 M NH3 is 11.227; calculate the Kb of the Base.
pOH = 14.00 - pH = 2.773
[OH-] = 10-pOH = 0.001686 M
NH3 + H2O ⇄ NH4+ + OH-
I 0.20 M 0 0
C 0.001686 M 0.001686 M 0.001686 M
E 0.1983 M 0.001686 M 0.001686 M
Kb= (0.001686)2 = 1.4 x 10-5
0.1983 7. The pH of 0.40 M NaCN is 11.456; calculate the pH for the basic salt. Start by writing an equation and an ICE chart.
pOH = 14.00 - pH = 2.544
[OH-] = 10-pOH = 0.002858 M
CN- + H2O ⇄ HCN + OH-
I 0.40 M 0 0
C 0.002858 M 0.002858 M 0.002858 M
E 0.3971 M 0.002858 M 0.002858 M
Kb= (0.002858)2 = 2.0 x 10-5
0.3971 8. The pH of a 0.10 M triprotic acid is 5.068, calculate the Ka and identify the acid.
[H+] = 10-pH = 10-5.068 = 8.55 x 10-6 M H3X ⇄ H+ + H2X- Note a triprotic weak acid
only loses one proton.
I 0.10 M 0 0
C 8.55 x 10-6 M8.55 x 10-6 M8.55 x 10-6 M
E 0.10 M 8.55 x 10-6 M8.55 x 10-6 M
Ka = (8.55 x 10-6)2 = 7.3 x 10-10
0.10
Ka = 7.3 x 10-10 Boric acid H3BO3 Look up on Ka Table.
9. How many grams of CH3COOH are dissolved in 2.00 L of a solution with pH = 2.45?
[H+] = 10-2.45 = 0.003548 M
CH3COOH ⇄ H+ + CH3COO-
I x 0 0 C 0.003548 M 0.003548 M 0.003548 M E x - 0.003548 M 0.003548 M 0.003548 M Keq = [H + ][CH 3COO - ]
[CH3COOH]1.8 x 10-5 = (0.003548)(0.003548)
[CH3COOH] [CH3COOH] = 0.6994 M 2.00 L x 0.6994 moles x 60.0 g =
84 g1 L 1 mole
* Use questions 1 to 4 from last assignment to mark questions 1 to 4.
WS # 12 Kb For Weak Bases
Determine the Kb for each weak base. Write the ionization reaction for each. Remember that Kw = Ka • Kb (the acid and base must be conjugates). Find the base on the right side of the acid table and use the Ka values that correspond. Be careful with amphiprotic anions!
1. 1. NaNO2 (the basic ion is NO2-)
2. Kb(NO2
-) = Kw = 1.0 x 10-14
Ka(HNO2) 4.6 x 10-4
3. Kb = 2.2 x 10-11
2. 2. KCH3COO (the basic ion is CH3COO-) Kb = 5.6 x 10-10
3. 3. NaHCO3 Kb = 2.3 x 10-8
4. NH3 Kb = 1.8 x 10-5
5. NaCN Kb = 2.0 x 10-5
6. Li2HPO4 Kb = 1.6 x 10-7
7. KH2PO4 Kb = 1.3 x 10-12
8. K2CO3 Kb = 1.8 x 10-4
9. Calculate the [H+], [OH-], pH, and pOH for 0.20 M H2CO3.
[H+] = 2.9 x 10-4 M [OH-] = 3.4 x 10-11 M pH = 3.53 pOH = 10.47 10. The pH of 0.20 M H2CO3 is 3.53. Calculate the Ka for H2CO3. Compare your calculated value with that in the table.
Ka = 4.4 x 10-7
11. Calculate the [H+], [OH-], pH, and pOH for 0.10 M CH3COOH.
[H+] = 1.3 x 10-3 M [OH-] = 7.5 x 10-12 M pH = 2.87 pOH = 11.13
12. The pH of 0.10 M CH3COOH is 2.87. Calculate the Ka.
[H+] = 10-2.87 = 0.001349 M
CH3COOH ⇄ H+ + CH3COO-
I 0.10 M 0 0 C 0.001349 M 0.001349 M 0.001349 M E 0.09865 M 0.001349 M 0.001349 M
Ka = [H + ][CH 3COO - ] [CH3COOH]
Ka = (0.001349)( 0.001349)(0.09865)
Ka = 1.8 x 10-5
13. 200.0 mL of 0.120 M H2SO4 reacts with 400.0 mL of 0.140 M NaOH. Calculate the pH of the resulting solution. H2SO4 + 2NaOH ® Na2SO4 +
2HOH 0.200 L x 0.120 mol = 0.0240 mol 0.400 L x 0.140 mol = 0.0560 mol L L I 0.0240 mole 0.0560 mole C 0.0240 mole 0.0480 mole E 0 0.0080 mole [OH-] = 0.0080 mole = 0.013 M 0.6000 L pOH = 1.88 pH = 12.12
WS # 13 Acid and Base pH Calculations
For each weak bases calculate the [OH-], [H+], pOH and pH. Remember that you need to calculate Kb first.
1. 0.20 M CN-
Kb(CN-) = Kw = 1.0 x 10-14 = 2.0408 x 10-5
Ka(HCN) 4.9 x 10-10
CN- + H2O ⇄ HCN + OH-
I 0.20 0 0C x x xE 0.20 - x x x
x2 = 2.0408 x 10-5
Note the loss of sig figs!Beware subtraction!
Note the final volume is used as the two solutions are mixed together. 200.0 mL + 400.0 mL = 600.0 mL
0.20 - x
x = [OH-] = 2.0 x 10-3 M
[OH-] = 2.0 x 10-3 M pOH = 2.69 pH = 11.31 [H+] = 4.9 x 10-12 M 2. 0.010 M NaHS (the basic ion is HS-) Kb = 1.1 x 10-7 [OH-] = 3.3 x 10-5 M pOH = 4.48 pH = 9.52 [H+] = 3.0 x 10-10 M 3. 0.067 M KCH3COO Kb = 5.55 x 10-10 [OH-] = 6.1 x 10-6 M pOH = 5.21 pH = 8.79 [H+] = 1.6 x 10-9 M 4. 0.40 M KHCO3
Kb = 2.3 x 10-8 [OH-] = 9.6 x 10-5 M pOH = 4.02 pH = 9.98 [H+] = 1.0 x 10-10 M 5. 0.60 M NH3
Kb = 1.786 x 10-5 [OH-] = 3.3 x 10-3 M pOH = 2.49 pH = 11.51 [H+] = 3.1 x 10-12 M 6. If the pH of a 0.10 M weak acid HX is 3.683, calculate the Ka for the acid and identify the acid using
your acid chart.
HX ⇄ H+ X-
I 0.100 M 0 0
C - 0.0002075 0.0002075 0.0002075
E 0.09979 0.0002075 0.0002075
Ka = (0.0002075)2 = 4.3 x 10-7 Carbonic acid
(0.09979) 7. Calculate the [H+], [OH-], pH, and pOH for 0.80 M H3BO3. [H+] = 2.4 x 10-5 M [OH-] = 4.1 x 10-10 M pH = 4.62 pOH = 9.38 8. Calculate the [H+], [OH-], pH, and pOH for 0.25 M H2CO3. [H+] = 3.3 x 10-4 M [OH-] = 3.0 x 10-11 M pH = 3.48 pOH = 10.52 9. The pH of 1.65 M H3BO3 is 4.46. Calculate the Ka for H3BO3. Compare your calculated value with that in the table. Ka = 7.3 x 10-10 [OH-] = 2.88 x 10-10 M pH = 4.46 [H+] = 3.47 x 10-5 pOH = 9.54
10. The pH of 0.65 M NaX is 12.46. Calculate the Kb for NaX.
pOH = 14.00 - 12.46 = 1.54 [OH-] = 10-1.54 = 0.02884 M
CN- + H2O ⇄ HCN + OH-
I 0.65 M 0 0C 0.02884 M 0.02884 M 0.02884 ME 0.6212 M 0.02884 M 0.02884 M
(0.02884)2
Kb =(0.6212)
Kb = 1.3 x 10-3
11. Consider the following reaction: 2HCl + Ba(OH)2 → BaCl2 + 2H2OWhen 3.16g samples of Ba(OH)2 were titrated to the equivalence point with an HCl solution, the following data was recorded. Trial Volume of HCl added#1 37.80 mL Reject#2 35.49 mL#3 35.51 mL Calculate the original [HCl] = 1.04M
35.50 mL Average
2HCl + Ba(OH)2 → BaCl2 + 2H2O0.03550 L 3.16 g
3.16 g Ba(OH)2 x 1 mole x 2 moles HClMolarity =
171.3g 1 mole Ba(OH)2
0.03550 L
[HCl] = 1.04M 12. Calculate the volume of 0.200M H2SO4 required to neutralize 25.0 ml of 0.100M NaOH. 0.00625 L 13. 25.0 ml of .200M HCl is mixed with 50.0 ml .100M NaOH, calculate the pH of the resulting solution. No excess pH = 7.000 14. 10 ml of 0.10M H2SO4 is mixed with 25 ml 0.20M NaOH, calculate the pH of the resulting solution.
pH = 12.456 15. 125.0 ml of .200M HCl is mixed with 350.0 ml .100M NaOH, calculate the pH of the resulting solution. pH = 12.323 16. Define standard solution and describe two ways to standardize a solution.
A standard solution is one of known molarity. If you make the solution from a weighed amount of solid
and dilute it to a final volume in a volumetric flask it is a standard solution. If you titrate a solution to
determine its concentration it is a standard solution.
17. What is the [H3O+] in a solution formed by adding 60.0 mL of water to 40.0 mL of 0.040 M KOH solution?[H+] = 6.3 x 10-13 M
WS # 14 Review 1. List the properties of acids/bases. Acids- conduct electricity, taste sour, change the color of indicators, neutralize bases, react with active metals like Mg to produce H2 gas.Bases- conduct electricity, taste bitter, change the color of indicators, neutralize acids, feel slippery.2. Define the following: Arhenius strong acid- completely ionizes to form H+
Arhenius weak base- partially ionizes to form OH-
Bronsted strong acid- completely donates a proton to a baseBronsted weak base- partially accepts a proton to an acid Conjugate pair – an acid base pair that differs by one protonAmphiprotic- a chemical species that can be an acid or baseStandard solution- a solution of known molarity 3. Show by calculation if the following amphiprotic ions are acids or bases:
a) HCO3- Base Ka = 5.6 x 10-11 Kb = 2.3 x 10-8
b) H2PO4- Acid Ka = 6.2 x 10-8 Kb = 1.3 x 10-12
c) HPO42- Base Ka = 2.2 x 10-13 Kb = 1.6 x 10-7
4. What is the strongest base in water? What is the strongest acid in water? Write equations to explain your answer.
Base OH- NaOH → Na+ + OH-
Acid H+ HCl → H+ + Cl-
5. Match each equation:
Acid/base complete HCl + NaOH →NaCl + HOH Acid/base net ionic F- + HOH → HF + OH-
Solubility product H+ + OH- → HOH Hydrolysis AgCl(s) → Ag+ + Cl-
Acid/Base formula H20 → H+ + OH-
Ionization of water H+ + Cl- + Na+ + OH-→Na++ Cl- + H2O 6. HCl and HF. Describe each acid as:
a) strong/weak b) high/low ionization c) large or small Ka d) good/poor conductor e) strong or weak electrolyte
7. 0.2M HCl and 1.0M HF. Which is the most concentrated? Which is the strongest acid?8. Label the scale as strong/weak acid and strong/weak base.
|________________________|_________________________|__
pH 0 7 14SA WA WB SB
9. Which ions are amphiprotic? HPO4
-2 HCl F- HS- H2S H2O 10. Write the net ionic equation between any acid and base. H+ + OH- → HOH 11. Write the ionization equation for water. H20 → H+ + OH-
12. Write the Kw expression. Kw = [H+][OH-] = 1.0 x 10-14
13. H2SO3 + HS- <====> H2S + HSO3
-
a) Are the reactants or products favoured? b) Are the Keq large, small or about 1? 14. 0.20M HCl pH = 0.70 15. 0.20M Ba(OH)2 pH = 13.60 16. 0.20M H2CO3 pH = 3.53 17. 0.40M KHCO3 pH = 9.98
18. The pH increases by 2 units. How does [H+] change? Decreases by a factor of 100 19. The pH decreases by 1 unit. How does [H+] change? Increases by a factor of 10 20. a) For distilled water : pH = 7.00 pOH =7.00 [H+] = 1.0 x 10-7 M [OH-] = 1.0 x 10-7 M
b) For 1M HCl: pH = 0.0 pOH =14.0 [H+] = 1 M [OH-] = 1.0 x 10-14 M
c) For 1M NaOH pH = 14.0 pOH =0.0 [H+] = 1.0 x 10-14 M [OH-] = 1 M 21. The pH of .20M NaX is 12.50, calculate the Kb. Kb = 5.9 x 10-3
22. The pH of .2M HX is 4.5, calculate the Ka. Ka = 5 x 10-9
23. 100mL of .200M NaOH is mixed with 100ml of .180M HCl. Calculate the pH of the resulting solution. pH = 12.0024. How many grams of NaHCO3 are required to make 100mL of .200M solution? 1.68 g 25. What volume of 0.200M NaOH is required to neutralize 25.0 mL of 0.150M H2SO4? 0.0375 L 26. In a titration 25.0mL of .200M H2SO4 is required to neutralize 10.0mL NaOH. Calculate the concentration of the base. 1.00 M 27. Calculate the concentration of a solution of NaCl made by dissolving 50.0g in 250mL of water. 3.42 M
28. SO3(g) + H2O(g) ⇄ H2SO4(l)
Equilibrium concentrations are found to be:[SO3] = 0.400M [ H2O] = 0.480M [H2SO4] = 0.600M Calculate the value of the equilibrium constant. 5.21 29. 2SO2(g) + O2(g) ⇄ 2SO3(g)
4.00 moles of SO2 and 5.00 moles O2 are placed in a 2.00 L container at 200ºC and allowed to reach equilibrium. If the equilibrium concentration of O2 is 2.00M, calculate the Keq. Keq = 0.500
Ws # 15 Buffers 1. Definition (buffer) A solution that is made by mixing a weak acid or base with a salt containing the conjugate which maintains a relatively constant pH.
2.
Acid Conjugate Base Salt HCN CN- NaCN H2CO3 HCO3
- KHCO3
NH4
+ NH3 NH4Cl HF F- NaF CH3COOH CH3COO- NaCH3COO H2C2O4 HC2O4
- Na HC2O4
3. Write an equation for the first three buffer systems above. HCN ⇄ H+ + CN-
H2CO3 ⇄ H+ + HCO3
-
NH3 + H2O ⇄ NH4+ + OH-
4. Which buffer could have a pH of 4.0 ? Which buffer could have a pH of 10.0 ? a) HCl & NaCl b) HF & NaF c) NH3 & NH4Cl
5. Predict how the buffer of pH = 9.00 will change. Your answers are 9.00, 8.98, 9.01, 2.00, and 13.00
Final pHa) 2 drops of 0.10M HCl are added 8.98 b) 1 drop of 0.10M NaOH is added 9.01 c) 10 mL of 1.0 M HCl are added 2.00 6. Write an equation for the carbonic acid, sodium hydrogencarbonate buffer system. A few drops of HCl are added. Describe the shift and each concentration change. Equation: H2CO3 ⇄ H+ + HCO3
-
Shift left [H+] = increases [H2CO3] = increases [HCO3
-] = decreases Indicators1. Definition (Indicator) A weak acid whose conjugate base is a different color.2. Equilibrium equation HInd ⇄ H+ + Ind-
3. Colors for methyl orange HInd red Ind- yellow 4. Compare the relative sizes of [HInd] and [Ind-] at the following pH’s.
Color Relationship pH = 2.0 red [Hind] > [Ind-] pH = 3.7 orange [Hind] = [Ind-] pH = 5.0 yellow [Hind] < [Ind-] 5. HCl is added to methyl orange, describe if each increases or decreases. [H+] increases [HInd] increases [Ind-] decreases Color Change yellow to red 6. NaOH is added to methyl orange, describe if each increases or decreases. [H+] decreases
[HInd] decreases [Ind-] increases Color Change red to yellow 7. State two equations that are true at the transition point of an indicator.[Hind] = [Ind-] Ka = [H+]
8. What indicator has a Ka = 4 x 10-8 Neutral Red 9. What is the Ka for methyl orange. 2 x 10-4
10. A solution is pink in phenolphthalein and colorless in thymolphthalein. What is the pH of the
solution?
pH = 1011. A solution is blue in bromothymol blue, red in phenol red, and yellow in thymol blue. What is the pH of the solution? pH = 8
Ws # 16 Titration CurvesChoose an indicator and describe the approximate pH of the equivalence point for each titration. Complete each reaction.
pH Indicator 1. HCl + NaOH -------> 7 bromothymol blue 2. HF + RbOH -------> 9 phenolphthalein
3. HI + Ba(OH)2 -------> 7 bromothymol blue
4. HCN + KOH ------> 9 phenolphthalein
5. HClO4 + NH3 -------> 5 bromocresol green 6. CH3COOH + LiOH -------> 9 phenolphthalein
7. Calculate the Ka of bromothymol blue. Ka = 2 x 10-7
8. An indicator has a ka = 1 x 10-10, determine the indicator. Thymolphthalein 9. Calculate the Ka of methyl orange. Ka = 2 x 10-4
10. An indicator has a ka = 6.3 x 10-13, determine the indicator. Indigo Carmine 11. Explain the difference between an equivalence point and a transition point. The equivalence point refers to endpoint of a titration (moles acid = moles base) and a transition point
refers to when an indicator changes color.
Draw a titration curve for each of the following.12. Adding 100 ml 1.0 M NaOH to 50 mL 1.0 M HCl 13. Adding 100 ml 1.0 M NaOH to 50 mL 1.0 M HCN pH
Volume of base added Volume of base added
14. Adding 100 ml 0.10 M HCl to 50 mL 0.10M NH3 15. Adding 100 ml .10 M HCl to 50 mL 0.10 M NaOH pH pH
Volume of base added Volume of base added
0
14
7
0 50 100
0 50 100
7
14
0
0 50 100
0 50 100
Back to Acids Resource Page