Title of lesson: Acids and Bases Benchmark lesson

Title of lesson: Acids and Bases Benchmark lesson

Course title and level: 1^st, 2^nd, or 3^rd year Chemistry

TEKS addressed:

Scientific processes. The student, for at least 40% of instructional time, conducts field and laboratory investigations using safe, environmentally appropriate, and ethical practices. The student is expected to:

(A) demonstrate safe practices during field and laboratory investigations; and
(B) make wise choices in the use and conservation of resources and the disposal or recycling of materials.

(2) Scientific processes. The student uses scientific methods during field and laboratory investigations. The student is expected to:

B) collect data and make measurements with precision;
(C) express and manipulate chemical quantities using scientific conventions and mathematical procedures such as dimensional analysis, scientific notation, and significant figures;
(D) organize, analyze, evaluate, make inferences, and predict trends from data; and
(E) communicate valid conclusions.

(14) Science concepts. The student knows the properties and behavior of acids and bases. The student is expected to:

(A) analyze and measure common household products using a variety of indicators to classify the products as acids or bases;
(C) identify the characteristics of a neutralization reaction; and
(D) describe effects of acids and bases on an ecological system.

Lesson plan:

I. Performance or learner outcomes

The student will be able to:

Define the terms acid and base
Explain what makes an acid/base strong or weak
Calculate the pH or pOH for a given system
Calculate acid or base concentrations based on titration data

Overview

Acids and bases are an important part of our day-to-day lives. The term acid rain comes up frequently when discussing environmental concerns. Acids are defined as being electron pair acceptors, frequently meaning that they donate an H₃O⁺ ion. A base is defined as being an electron pair donor, frequently meaning that they accept H₃O⁺ or donate OH^-. pH is defined as being the negative log of the hydrogen ion concentration [H₃O⁺]. pOH is defined as being the negative log of the hydroxide ion concentration of the solution [OH^-]. The product of the [H₃O⁺] and [OH^-] concentrations is the K_w=1.0 x 10^-14. The more an acid or base dissociates in an aqueous solution, the stronger it is considered to be. For example, HCl is considered to be a strong acid, and NaOH is considered to be a strong base.

Students will be investigating acids and bases using pH tests, titrations, class discussions, lecture and reading.

III. Resources, materials and supplies needed

pH testing equipment

litmus paper

colorimetric indicators

pH probes and CBLs - one per group of students

Textbook or other resource with course level appropriate information on acids and bases.

Burets one per group of students

Erlenmeyer flasks - two per group of students

Colorimetric indicators or pH probes and CBLs one dropper bottle of indicator per group, or one pH probe and CBL per group of students

Standard acid and base solutions (known concentrations) 0.5 M HCl and NaOH solutions 75 ml of each per group of students

Unknown acid and base solutions 0.75 or 1M concentrations of HCl and NaOH solutions 15 ml of each per group of students

Titration curves for strong, weak, and polyprotic acids, titrated with a base.

Engagement

Student behaviors / activities

Teacher behaviors / activities

Using litmus paper, pH indicators, and/or pH probes determine the pH for various household chemicals, tap water (especially in Austin, the water is quite basic), and deionized water.

Answer questions of why this relates to acids and bases.

Create a concept map about acids and bases.

Brainstorm what makes acids and bases strong or weak.

Predict where household products (bleach, vinegar, solution of baking soda, carbonated beverages) would fall on the pH scale.

Demonstrate technique for using various testing methods.

Observe students while they are performing the experiments. Answer any questions. Make sure students follow lab safety rules.

Facilitate discussions of acids and bases.

Clarify misconceptions about acids and bases.Ask students why two samples of water have a different pH.

Draw pH scale on board.

Ask how the pH of something can be changed.

Exploration

Student behaviors / activities Teacher behaviors / activities

Experiment with pH by measuring the pH of water before and after adding a drop of acid or base to it.
Graph the relationship between the amount of acid/base added to the pH.
Look at titration curves of strong acids with strong bases, weak bases, and the titration curves of polyprotic acids.
Monitor students while doing the experiment.
Compile data on the board.

Answer any student questions.Ask students to compare the graphs they generated with the titration curves.How are they related?

Explanation

Student behaviors / activities Teacher behaviors / activities

Discuss findings from the exploration.
Hypothesize the relationship between the graphs generated to titration curves.
Discuss how pH relates to acid/ base concentration.
Read about acids/bases and discuss as a class their misconceptions before the reading.
Ask questions.

Present information on what defines an acid or a base. Discuss what makes an acid/base strong or weak. Relate this concept to solubility.
Explain pH/pOH scale, and how pH/pOH is determined ([H₃O⁺] ion concentration and [OH^-] ion concentration).
Demonstrate pH/pOH calculations.
Review basic log rules.

Elaboration

Student behaviors / activities Teacher behaviors / activities

Titrate a strong acid solution with a base. Titrate a strong base with an acid. Determine the concentrations of these solutions. Discuss neutralization reactions.
Explain titrations and why they are used.
Demonstrate titration technique.
Demonstrate titration calculations.

Evaluation

Student behaviors / activities Teacher behaviors / activities

Generate a basic lab report about the titration experiment.
As a class discuss the findings of the comparisons of titration curves.
Take a quiz about acids and bases, where they must identify something as being an acid or base, determine the pH of a solution, and determine the concentration of an acid or base solution from titration data.
Facilitate class discussion, and help the students relate titration curves, and the titration process to the topic of acids and bases in general.