Unit 7: Behavior of Gases

TC* 1.1 - KMT
TC* 1.2 - Gas Laws
TC* 1.3 - Ideal Gas Law

Create models representing gas particle behavior

Use simulations to visualize KMT principles

Write explanations connecting KMT to observable gas properties

Conduct experiments measuring pressure and volume relationships

Graph and analyze pressure vs. volume data

Solve problems applying Boyle's Law

Perform lab activities investigating volume and temperature relationships

Plot volume vs. temperature graphs

Calculate volume or temperature changes using Charles' Law

Analyze pressure and temperature data sets

Create pressure vs. temperature graphs

Apply Gay-Lussac's Law to solve problems

Integrate Boyle's, Charles', and Gay-Lussac's laws

Solve multi-step problems using the Combined Gas Law

Design experiments to test gas law relationships
Derive the Ideal Gas Law from previous gas laws

Calculate gas properties (pressure, volume, temperature, moles)

Determine molar mass and density of gases

Solve problems involving gas mixtures and partial pressures
Compare real and ideal gas behavior graphs

Explain factors causing deviations from ideal behavior

Analyze case studies of real gas applications in industry

Explain the Kinetic Molecular Theory (KMT) and its implications for gas behavior.

Apply gas laws (Boyle's, Charles', Gay-Lussac's, and Combined) to solve problems.

Use the Ideal Gas Law to calculate gas properties.

Describe real gas behavior and its deviations from ideal gas behavior.