Expt 008 -- Bronsted/Lowry Acids and Bases
Description
The relative acidity of various salt solutions is determined by dissolving the crystals on pH paper and approximating the pH according to the color scale provided.
Safety
Some of the chemicals are toxic. Wear goggles and apron. Do not ingest any chemicals. Wash up spills immediately. Wash hands after the experiment.
Procedure
- Place one piece of each type of pH paper used on the plastic sheet Place a few small crystals of each solid to be tested spaced at distances of about 2 cm on the pH paper strips.
- !!!Click here to See Picture.
- Add 2-3 drops of distilled water from a plastic transfer pipet to each small pile of crystals.
- !!!Click here to See Movie.
- Estimate the pH using the color charts provided.
- !!!Click here to See Movie.
- Record the observations in a data table.
- !!!Click here to See Picture.
- !!!Click here to See Picture.
- For each ion studied, write a balanced equation for the reaction with water.
Questions
- Order these acids in terms of strength: CH3COOH, HCl and HCO3-. Justify this ordering.
- Fats react with bases to form water soluble products. Commercial cleaning products usually contain Na2CO3 or Na3PO4. Explain this formulation.
- NaAl(SO4)2 is mixed with NaHCO3 in some baking powder formulations. Write equations to show how CO2 is produced.
Handout
Name ___________________________ Class ________
Teacher__________________________
SmallScale 008 Bronsted/Lowry Acids and Bases
Makeup students should record data from the pictures.
Sample Data Table:
| Salt |
Approx. pH |
Rel. Acid/Base |
Hydrolysis (yes or no) |
|
FeCl3 |
|
|
|
|
Al2(SO4)3 |
|
|
|
|
Na3PO4 |
|
|
|
|
Na2SO4 |
|
|
|
|
NaCH3COO |
|
|
|
|
NH4Cl |
|
|
|
|
(NH4)2SO4 |
|
|
|
|
NaNO3 |
|
|
|
|
NaCl |
|
|
|
|
Na2CO3 |
|
|
|
Curriculum-
This experiment fits in during discussion of acid, bases, and especially salts.
Safety-
Some of the chemicals are toxic. Wear goggles and apron. Do not ingest any chemicals. Wash up spills immediately. Wash hands after the experiment.
Time-
Teacher Preparation: 10 minutes
Class Time: 40 minutes
Materials-
- 1 plastic sheets (acetate)
- universal pH paper with color chart
- solid samples of the some of the following salts (stored in microcentrifuge tubes), (0.1g per group)
- Na2CO3•H2O (or Na2CO3)
- NaCl
- Na2SO4
- NH4Cl
- NaC2H3O2•3H2O ( NaCH3COO•3H2O)
- Na3PO4•12H2O
- Al2(SO4)3•18H2O
- FeCl3•6H2O
- (NH4)2SO4
- NaNO3
- NaHCO3
Disposal-
Dispose of the soiled pH papers with ordinary solid trash.
Lab Hints-
- In most parts of the United States, tap water and water that is run through a demineralizer will have a pH of less than 7.0. The acidity of the water may alter some results. Use pure bottled distilled water if available. Distilled water often is acidic because of dissolved carbon dioxide. Boiling removes the dissolved gas.
- The number of salt samples tested may be varied. Other salts may be substituted for the ones suggested in this lab.
Background-
- Salts dissociate in water. Consider NaCl. In water, it consists of Na+(aq) and Cl-(aq). Either of these may react with water in an acid base reaction:
- Na+ + H2O
NaOH + H+
- Cl- + H2O HCl + OH-
- In fact, neither of these reactions takes place as written. Instead, the reverse of these reactions takes place.
- A different result obtains for weak acids and bases.
- CH3COO- + H2O CH3COOH + OH-
- NH4+ + H2O NH4OH + H+
- In these cases, the products NH4OH and CH3COOH do not dissociate completely. These reactions do have a tendency to go as written, at least to some extent. As a result, water solutions of NH4Cl contain an excess of H+ over OHÑ and are acidic; water solutions of NaCH3COO contain an excess of OHÑ over H+, and are basic.
- In an older context, these were described as reactions with water, and the term hydrolysis was used to describe the reaction.
- Always, acids and bases in solution come in pairs called conjugates. For each acid, there is a conjugate base; for each base, there is a conjugate acid.
- For these reactions:
- acid1....................................base1
Na+ + H2O NaOH + H+
base2..............................acid2
- acid1................................base1
Cl- + H2O HCl + OH-
base2................................acid2
- acid1......................................base1
NH4+ + H2O NH4OH + H+
base2...................................acid2
- acid1............................................base1
CH3COO- + H2O CH3COOH + OH-
base2............................................acid2
- Notice that water is always acting as either an acid or a base. In a sense, each acid or base is being compared in terms of strength to water. In water solutions, then, the ions from a salt are compared to one another. In NaCl, neither Na+ nor Cl- is strong compared to water. However, in NH4Cl, the ammonium ion is stronger as an acid than is the Cl- ion as a base. The result is that water solutions of this salt contain excess H+; they are acidic.
- When the conjugate acid and base of both ions in a salt are weak, then the outcome depends upon which substance is stronger. Solutions of (NH4)2CO3 are alkaline -- HCO3- is weaker as an acid than is NH3 as a base. NH4CH3COO is a special case -- both ions are equally strong, and the solution is neutral.
- Based upon the results observed, for all ions studied, write formulas for the ion and its conjugate acid or base. Indicate whether the formation of the conjugate in water takes place to a very great extent, to a slight extent, or to no measurable extent. (For some substances, such as NaH or KNH2, a great degree of reaction is observed.)
- Water acts as a leveler of the acid and base. (The solvent acts as a leveler.)
- For the acid in a pair,
- CH3COOH + H2O --> H3O+ + CH3COO-
- Ka = ([H+][CH3COO-])/[CH3COOH]
- For the base in a pair,
- CH3COO- + H2O --> CH3COOH + OH-
- Kb = ([OH-][CH3COOH])/[CH3COO-]
- and the product of these is
- Ka x Kb =(([H+][CH3COO-])/[CH3COOH] ) x (([OH-][CH3COOH])/[CH3COO-]) = [H+][OH-]
- This product is known as the Kw for water, so
Data Table-
| Salt |
Approx. pH |
Rel. Acid/Base |
Hydrolysis (yes or no) |
| FeCl3 |
4
|
acid
|
yes
|
| Al2(SO4)3 |
4
|
acid
|
yes
|
| Na3PO4 |
10
|
base
|
yes
|
| Na2SO4 |
7
|
neutral
|
no
|
| NaCH3COO |
8
|
base
|
yes
|
| NH4Cl |
5
|
acid
|
yes
|
| (NH4)2SO4 |
6
|
acid
|
yes
|
| NaNO3 |
7
|
neutral
|
no
|
| NaCl |
7
|
neutral
|
no
|
| Na2CO3 |
10
|
base
|
yes
|
Data Analysis-
Interpretation of Data:
| Acid |
Conjugate Base |
Extent of Reaction |
| Na+ |
NaOH |
none |
| K+ |
KOH |
none |
| NH4+ |
NH3 |
slight |
| Al(H2O)63+ |
Al(H2O)5OH2+ |
some |
|
Fe(H2O)63+ |
Fe(H2O)5OH2+ |
some |
| Base |
Conjugate Acid |
Extent of Reaction |
|
CO32- |
HCO3- |
some |
| Cl- |
HCl |
none |
|
NO3- |
HNO3 |
none |
|
SO42- |
HSO4- |
none |
|
CH3COO- |
CH3COOH |
slight |
|
PO43- |
HPO42- |
some |
Answers-
- Q1. Order these acids in terms of strength: CH3COOH, HCl and HCO3-. Justify the ordering.
- A1. According to the experimental results CH3COOH is weaker than HCl. Water solutions of NaCl are neutral. Water solutions of NaCH3COO are alkaline. HCO3- is weaker than CH3COOH because, according to the pH paper results, solutions of Na2CO3 are more alkaline than solutions of NaCH3COO.
- Q2. Commercial cleaning products usually contain Na2CO3 or Na3PO4. Explain this formulation.
- A2. CO32- + H2O --> HCO3- + OH-
- PO43- + H2O --> HPO42- + OH-
- OH- is among the active ingredients in cleaners; it reacts with fats, greases, and oils.
- Q3. NaAl(SO4)2 is mixed with NaHCO3 in some baking powder formulations. Write equations to show how CO2 is produced.
- A3. Al(H2O)63+ + H2O --> Al(H2O)5(OH)2+ + H3O+
- HCO3- + H3O+ --> CO2 + 2 H2O
- The aluminum salt acts as an acid source, and releases CO2 from the bicarbonate.
Key Words 1-
acid, base, pH, salt, hydrolysis, Bronsted acid, Bronsted base, Bronsted/Lowry
Elements-
Na K N C S Al Fe P Cl