Classroom Resources: Gases
26 – 31 of 31 Classroom Resources
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Gas Laws, Molar Mass, Density, Temperature, Pressure, Volume, Ideal Gas, Physical Change, Observations, Density, Identifying an Unknown, Error Analysis | High School
Lab: Molar Mass of Dry Ice Mark as Favorite (14 Favorites)
In this lab, students will use gas laws to calculate the molar mass of dry ice and then use the information to identify the compound that makes up this substance.
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Density, Pressure, Temperature, Volume, Density, Error Analysis, Error Analysis, Measurements | High School
Lab: Gas Density and Relative Molecular Mass Mark as Favorite (3 Favorites)
In this lab, students will quantitatively determine the densities of four gases.
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Gas Laws, Pressure, Temperature, Volume | High School
Lab: Three Station Gas Lab Mark as Favorite (86 Favorites)
In this lab, students will investigate relationships of variables involved with gases. They will draw pictures and explain in words what they observe and why.
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Kinetic Molecular Theory, Ideal Gas, Gas Laws, Volume, Temperature, Graphing, Accuracy, Error Analysis | High School
Lab: Finding Absolute Zero Mark as Favorite (17 Favorites)
In this lab, students will experimentally determine the value for absolute zero in degrees Celsius.
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Solubility, Solute & Solvent, Concentration, Pressure, Temperature | High School
Demonstration: Exploring Gas Solubility Mark as Favorite (14 Favorites)
In this demonstration, students will explore how changes in pressure and temperature affect the solubility of a gas in an aqueous solution. In addition, students will have the opportunity in a post-demonstration reflection activity to practice using data (in this case their demonstration observations) to make evidence based claims.
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Kinetic Molecular Theory, Temperature, Heat, Temperature | Middle School, High School
Lab: Mega Marshmallows Mark as Favorite (46 Favorites)
In this lab, students will investigate the Kinetic Molecular Theory and particle motion while experimenting with a marshmallow. Students will observe how an increase in kinetic energy will cause particles to increase in motion. This concept will be extended into a discussion about additional real world thermal expansion examples.