Gas Properties

Learning Resource Type

Classroom Resource

Subject Area

Science

Grade(s)

9, 10, 11, 12

Overview

In this PhET Activity, students will explore the relationships between the pressure, volume, temperature, and density of ideal gases. As an extension, students can visualize, using graphs, how the temperature and pressure of a gas impact the speed and kinetic energy of particles. This activity can be used as an exploratory introduction to the behavior of gases, as a digital lab, or to reinforce student knowledge of confined gases.

Science (2015) Grade(s): 09-12 - Physical Science

SC15.PS.2

Plan and carry out investigations (e.g., squeezing a balloon, placing a balloon on ice) to identify the relationships that exist among the pressure, volume, density, and temperature of a confined gas.

UP:SC15.PS.2

Vocabulary

  • Pressure
  • Volume
  • Temperature
  • Density
  • Mass
  • Gas
  • Solid
  • Liquid
  • Control
  • Dependent variable
  • Independent variable
  • Direct relationship
  • Indirect relationship
  • Molecular-kinetic theory of matter
  • Heat vs. temperature
  • States of matter

Knowledge

Students know:
  • Gases can be compressed very tightly or expanded to fill a very large space.
  • As the temperature of a gas increases, the gas particles move faster and hit the sides of their container more frequently.
  • As the temperature of a gas decreases, the gas particles move more slowly and hit the sides of their container less frequently.

Skills

Students are able to:
  • Plan and carry out investigations to determine the relationship of the variables: pressure, temperature, volume, and density.
  • Create graphical representations of data from the investigation.
  • Analyze and interpret data from the investigation.
  • Communicate information collect from the investigations.
  • Use safe lab procedures.

Understanding

Students understand that:
  • The changes in volume, pressure and temperature of a gas demonstrate a pattern that can be related mathematically.
  • These relationships can be direct or indirect.

Scientific and Engineering Practices

Planning and Carrying out Investigations

Crosscutting Concepts

Cause and Effect
Science (2015) Grade(s): 09-12 - Chemistry

SC15.CHM.7

Plan and carry out investigations to explain the behavior of ideal gases in terms of pressure, volume, temperature, and number of particles.

UP:SC15.CHM.7

Vocabulary

  • Pressure
  • Volume
  • Temperature
  • Number of particles
  • System
  • Atomic/ molecular level
  • Macroscopic level
  • independent variable
  • Dependent variable
  • controlled variable(s)
  • Direct proportional/ relationship
  • Inverse proportional/ relationship
  • Avogadro's Law
  • Boyle's Law
  • Charles' Law
  • Gay-Lussac's Law (Amontons' Law)
  • Ideal gas law
  • Constant

Knowledge

Students know:
  • Behavior of gases is determined by the movement and interactions of the particles.
  • Relationships among the variables (pressure, volume, temperature, number of particles) can be used to predict the changes to a gaseous system.
  • The movement and interactions of gas particles within a system and the type of sytem determine the behavior of gases.
  • Relationships among the variables (pressure, volume, temperature, number of particles) can be used to predict the changes to a gaseous system.

Skills

Students are able to:
  • Plan an investigation that describes experimental procedure, including how data will be collected, number of trials, experimental setup, and equipment required.
  • Conduct an investigation to collect and record data that can be used to describe the relationship between the measureable properties of a substance and the motion of the particles of the substance.
  • Analyze recorded data to explain the behavior of ideal gases in terms of pressure, volume, temperature, and number of particles.
  • Identify relevant components in mathematical representations of the gas laws.
  • Analyze data using tools, technologies, and/ or models (e.g., computational, mathematical) in order to make valid and reliable scientific claims.
  • Use mathematical representations to determine the value of any relevant components in mathematical representations of the gas laws, given the other values.

Understanding

Students understand that:
  • Scientists plan and conduct investigations individually and collaboratively to produce data to serve as the basis for evidence.
  • Changes in the variables that affect the motion of gas particles can be described and predicted using scientific investigations.
  • The patterns of interactions between particles at the atomic/ molecular/ particulate level are reflected in the patterns of behavior at the macroscopic scale.
  • Cause and effect relationships may be used to predict phenomena in natural or designed systems.
  • Mathematical representations of phenomena are used to support claims and may include calculations, graphs or other pictorial depictions of quantitative information.
  • Changes in the variables that affect the motion of gas particles can be described and predicted using scientific investigations.
  • Cause and effect relationships may be used to predict phenomena in natural or designed systems.

Scientific and Engineering Practices

Planning and Carrying out Investigations; Using Mathematics and Computational Thinking

Crosscutting Concepts

Scale, Proportion, and Quantity; Energy and Matter

CR Resource Type

Interactive/Game

Resource Provider

PhET

License Type

Attribution
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