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LAB in Solubility, Intermolecular Forces. Last updated December 02, 2018.
Summary
In this lesson, students determine whether unknown substances are polar, nonpolar, or ionic by testing their solubilities.
Grade Level
High school
Objectives
By the end of this lesson, students should be able to
- Use known solutions to determine whether an unknown is polar, nonpolar, or ionic.
- Exhibit their understanding of the differences between polar, nonpolar, and ionic substances.
- Apply their understanding of “like dissolves like.”
- Recognize how intermolecular forces can help identify intramolecular forces within a compound.
Chemistry Topics
This lesson supports students’ understanding of
- Solubility
- Polarity
- Intermolecular forces
- Intramolecular forces
Time
Teacher Preparation: 45 minutes
Lesson: one class period
Materials
- Distilled water
- 95% isopropyl alcohol
- Vegetable oil
- Iodine – Compound A
- Naphthalene – Compound B
- Sodium chloride – Compound C
- Acetic acid (vinegar) – Solution A
- Ethanol – Solution B
- Acetone – Solution C
- Test tubes
- Test tube rack
- Stirring rods
Safety
- Always wear safety goggles when handling chemicals in the lab.
- Students should wash their hands thoroughly before leaving the lab.
- When students complete the lab, instruct them how to clean up their materials and dispose of any chemicals.
Teacher Notes
- Suggested unknowns for solids and solutions are given in the materials section. Do not tell students the identity of these substances until after they’ve completed the investigation. They should figure out using what they know about solubility and intramolecular forces what type of compound each sample is.
- The substances are as follows:
Water |
Polar |
Isopropyl alcohol |
Polar |
Vegetable oil |
Nonpolar |
Acetic acid |
Polar |
Ethanol |
Polar (with a nonpolar portion) |
Acetone |
Nonpolar (with a polarizable portion) |
Iodine |
Nonpolar |
Naphthalene |
Nonpolar |
Sodium chloride |
Ionic |
- All possible combinations and expected results:
Water |
Isopropyl alcohol |
Soluble |
Water |
Vegetable oil |
Insoluble |
Water |
Acetic acid |
Soluble |
Water |
Ethanol |
Soluble |
Water |
Acetone |
Soluble – probably an unexpected result. The water encourages the dipole in acetone. |
Water |
Iodine |
Insoluble |
Water |
Naphthalene |
Insoluble |
Water |
Sodium chloride |
Soluble |
Isopropyl alcohol |
Vegetable oil |
Insoluble |
Isopropyl alcohol |
Acetic acid |
Soluble (if you add H2SO4 as a catalyst, they react and form isopropyl acetate, which smells fruity) |
Isopropyl alcohol |
Ethanol |
Soluble |
Isopropyl alcohol |
Acetone |
Soluble |
Isopropyl alcohol |
Iodine |
Soluble |
Isopropyl alcohol |
Naphthalene |
Insoluble |
Isopropyl alcohol |
Sodium chloride |
Insoluble |
Vegetable oil |
Acetic acid |
Insoluble |
Vegetable oil |
Ethanol |
Insoluble |
Vegetable oil |
Acetone |
Soluble –in oil, the nonpolar properties of acetone allow for it to be soluble. |
Vegetable oil |
Iodine |
Soluble |
Vegetable oil |
Naphthalene |
Soluble |
Vegetable oil |
Sodium chloride |
Insoluble |
Acetic acid |
Ethanol |
Soluble |
Acetic acid |
Acetone |
Insoluble |
Acetic acid |
Iodine |
Insoluble |
Acetic acid |
Naphthalene |
Insoluble |
Acetic acid |
Sodium chloride |
Soluble |
Ethanol |
Acetone |
Insoluble |
Ethanol |
Iodine |
Soluble (unexpected – the I2 interacts with the nonpolar portion of ethanol) |
Ethanol |
Naphthalene |
Insoluble |
Ethanol |
Sodium chloride |
Soluble |
Acetone |
Iodine |
Soluble |
Acetone |
Naphthalene |
Soluble |
Acetone |
Sodium chloride |
Insoluble |
For the Student
Lesson
Prelab Questions
You’ve been investigating intermolecular forces in a variety of ways so far. This activity will help you better understand how polarity relates to this idea. Here are some questions to consider. Don’t answer them individually; craft a paragraph that discusses these ideas. If there are other aspects of intermolecular forces that you’d like to include, please do.
- What are the differences between physical and chemical properties?
- Are there any connections between intermolecular and intramolecular forces? Explain.
- Explain whether intermolecular or intramolecular forces are more important when determining whether two compounds will be soluble in each other.
- When a compound of your choice is put in water, draw a picture describing why they are soluble with each other. Label any forces (intra and inter).
- When oil and vinegar are mixed, explain why they separate. You can draw a picture to help with your explanation if you would like.
- At room temperature, would you expect a polar, nonpolar, or ionic substance to be solid? Why? How about liquid? Why?
Problem
What affects physical properties? How can physical properties help predict solubility?
Procedure & Data
- You have to come up with some rules for solubility without knowing the chemical makeup of various substances. Come up with a list of trials to conduct. You will carry out seven test trials. Before mixing, predict the outcome. Carry out each experiment observing carefully, so you can accurately record the data.
Substances to test for solubility: Water, Isopropyl alcohol, Vegetable oil, Compound A, Compound B
Substances (test trials) | Predict | Actual |
- Using your data, determine whether each substance is polar, nonpolar, or ionic.
Substance | Polar, nonpolar, ionic |
Water | |
Isopropyl alcohol | |
Vegetable oil | |
Compound A | |
Compound B | |
Compound C | |
Solution A | |
Solution B | |
Solution C |
If you need more data to support your conclusions, come up with two more tests to help you obtain enough data. Follow the same procedure for mixing and taking observations.
Substances (extra trials) | Predict | Actual |
Analysis
- Pick three other combinations of compounds you did not test – determine if they would be soluble or insoluble with each other. Explain how you made each prediction.
- Explain your thought process of how you determined the properties of your unknown compounds and your unknown solutions. Did you consider only the intermolecular forces, or did intramolecular forces play a part in determining their properties?
- Were any of your substances tough to identify as polar or nonpolar? Explain.
- Sometimes it’s useful in real life to mix things together that dissolve. Sometimes things are mixed together because they don’t dissolve. Give an example of each scenario and determine why the substances do or do not dissolve.
Conclusion
Now that you’ve collected data and analyzed it, answer the problem.