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ACTIVITY in Physical Properties, Solubility, Melting Point, Naming Compounds, Molecular Formula, Ionic Bonding, Ionic Radius, Ions. Last updated March 25, 2020.
Summary
In this lesson, students will demonstrate their knowledge of ionic bond strength using a “brackets” activity. Pairs of students start the activity playing a game of “Ionic Compound War” to build eight compounds. Then then transfer the compounds to a “bracket” and use their knowledge of ionic bonding, along with a solubility chart, to predict the strongest and weakest bond between four pairs of ionic substances.
Grade Level
High School
NGSS Alignment
This lesson will help prepare your students to meet the performance expectations in the following standards:
- HS-PS1-1: Use the periodic table as a model to predict the relative properties of elements based on the patterns of electrons in the outermost energy level of atoms.
- HS-PS1-2: Construct and revise an explanation for the outcome of a simple chemical reaction based on the outermost electron states of atoms, trends in the periodic table, and knowledge of the patterns of chemical properties.
- Scientific and Engineering Practices:
- Analyzing and Interpreting Data
- Engaging in Argument from Evidence
Objectives
By the end of this lesson, students should be able to
- Name and write the formula for ionic compounds.
- Estimate the relative strength of an ionic bond in two substances.
- Use a solubility table or chart to determine the solubility of ionic compounds
Chemistry Topics
This lesson supports students’ understanding of
- Ionic Bonding
- Chemical Formulas
- Solubility
- Ionic Bond Strength
Time
Teacher Preparation: minimal
Lesson: 45 - 60 minutes
Materials
- Student Handout and War Cards
Teacher Notes
- Ionic bond strength varies, depending on the ions that are present in the compound. As a general rule:
- Ionic bonds resulting from ions with higher charges will generally have higher melting points and lower solubility than those with lower charges.
- Ionic bonds between ions with smaller radii with generally have higher melting points and lower solubility than those with larger radii.
- It is important to stress that these rules are general rules, not absolute trends.
- This activity should be used as a summative assessment following a comprehensive study of ionic compounds and bonding.
- There is a chance that the compounds that the students compare might have both different charges and radii. In that case, students should use the solubility information and make the best prediction they can based on the data for the two compounds.
- Students should be in pairs. Make one copy of ion cards for each pair.
- Have students cut up cards, keeping the anions and cations separate.
- One student should have a set of anion cards and the other set of cation cards.
- Students should hold their card set face down and shuffle them well.
- The pair then flips their cards one at a time, and write the correct formula and name for their cation/anion combination in the table.
- They should then predict the solubility of each compound.
- Depending on your class level, you can provide them with the solubility rules and/or table.
- If you require your students to memorize these rules, disregard the table.
- Once finished, each team will transfer their compounds to the bracket.
- Once the first round of the bracket has been filled in, the pair predicts the strongest ionic bond/lattice energy for each pair and completes the bracket.
- The central question in this activity is, “Which compound has the strongest ionic bond?” This question can easily be changed, depending on the level of your class:
- Predict which compound will be most soluble.
- Predict which compound will be most soluble.
- Predict which compound will have the lowest melting point.
- Predict which compound will have the highest melting point.
For the Student
Lesson
Ionic bond strength varies, depending on the ions that are present in the compound. As a general rule:
- Ionic bonds resulting from ions with higher charges will generally have higher melting points and lower solubility than those with lower charges.
- Ionic bonds between ions with smaller radii with generally have higher melting points and lower solubility than those with larger radii.
- Work with a partner and cut the Ionic War Game cards apart.
- Separate them into a set of anions and a set of cations. Turn them over and shuffle them well.
- One of you will use the anion set and the other the cation set of cards.
- Flip one of each card and write the name and formula of the ionic compound in the table below.
Seed |
Cation
Symbol |
Anion Symbol |
Compound
Name |
Compound Formula | Soluble or Insoluble |
1 | |||||
2 | |||||
3 | |||||
4 | |||||
5 | |||||
6 | |||||
7 | |||||
8 |
- Transfer your compounds to the bracket, making sure to transfer them to the correct spot.
- Once the first round of the bracket is filled in, predict which one has the strongest ionic bond and continue with the second and third rounds.
- Write an explanation for the winner of your bracket in the space provided at the bottom of the next page. Include information about size, charge, and solubility as you moved through the rounds.
- When you finish your bracket, find another group and compare the winners of your bracket. Predict the winner between the two.
- Fully explain how you decided the winner between the two brackets. Include information about size and charge as you moved through the rounds.