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Beginner's
Guide to Propulsion and EngineSim
Density
Subject Area: Chemistry
Grade Level: 9-12
Time Required: 3 class periods
National Standards:
Science
- Unifying Concepts
and Processes:
- Change, constancy,
and measurement
- Form and
function.
- Science as
Inquiry:
- Understandings
about scientific inquiry.
- Abilities
necessary to do scientific inquiry
- Physical Science:
Structure and properties of matter.
Technology
- Research Tools
- Use content-specific tools, software and simulations (e.g., environmental
probes, graphing calculators, exploratory environments, Web tools)
to support learning and research.
- Problem-Solving
and Decision-Making Tools - Routinely and efficiently use on-line
information resources to meet needs for collaboration, research, publications,
communications, and productivity.
Objectives:
- You and your group
will design your own procedure to calculate the mass of the gas molecules
in the classroom by measuring the volume of the classroom and researching
the density of air. You and your group will then apply the changes in
air density with altitude and the effects on a jet engine.
EngineSim, which was
created at NASA Glenn Research Center to illustrate an example of their
research, simulates the aero-thermodynamics of a jet turbine engine. With
this software you can learn about different types of jet engines and how
they work. You can change the operating conditions and even design your
own turbine engine. EngineSim is intended for science and math students
from secondary schools through undergraduate engineering. In some parts
of the package, there are problems that you must solve using EngineSim.
In other parts, you are free to experiment.
EngineSim
is a Java applet
which you can also download from the World Wide Web at
EngineSim Download.
The Beginner's
Guide to Propulsion is a Web site of information prepared by the
NASA Glenn Research Center to help you better understand aircraft engine
propulsion. Click on the Beginner's
Guide Index to access the list of slides. Open the slides entitled
Air Properties Definitions
and/or Air Density. Read
the descriptions as background information to help you complete the activity.
Notes:
A. Because
the target group is a Chemistry class, the lesson is presented with a
rather open procedure by design. Students are not told step by step exactly
what to do. They are given the objectives and in small groups are to decide
what materials, information, and procedures are required to determine
the mass of the gas molecules in the room.
B. This lesson also helps students to realize that air has mass.
Once students have determined the mass of the molecules in the room they
can then analyze how the properties of those molecules will change with
altitude in our atmosphere and how that applies to the functioning of
a jet engine.
C. A suggested option is to have the students predict the
mass of the gas molecules in the classroom before they begin their procedure.
This may help remove some misconceptions about air.
Assessment:
You and your
group will be assessed on your description of your procedure, the presentation
of your data and calculations, and the final results for both the mass
of gas molecules in the classroom and the functioning of the jet engine.
Evaluation:
- Reports should
be neat, in chronological order, and include measurements with units.
All sections should be clearly identified.
Submitted by:
Norma Holowach, Lakeview High School, Cortland, Ohio
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