Embedded Teeacher Wksp 2022-23 LEO Art Challenge Workshop ICE 2019: Satellite Tracking, Orbits, and Modeling SEEC 2019: Satellite Tracking, Orbits, and Modeling Workshop:ITEC Trek-a-Sat Workshop: 2018-01-27 Yerkes Workshop: 2017-10-28 Carthage-Yerkes Electrostatics in Space Workshop: 2017-06-29-BTCI-Life in Space! Workshop: 2017-03-11 Yerkes Workshop: 2017-02-07 SEEC Workshop: 2017-01-28 Yerkes Tools You Might Use Educational Learning Standards Documentation
Detecting Orbital Debris Using Albedo
Written by: Frances Dellutri, Jr. High / Intermediate Level SpacEdge Education Team and Lynne Zielinski, Manager of EIS Education Updated July 2022
Title of Lesson: Orbital Debris and Albedo - Middle School
Grade (Age) Level: Grades 5-8 (Ages 10-13)
CCCS: 6.8.3, 6.8.7: http://www.corestandards.org/ELA-Literacy/RST/6-8/
NGSS: MS-ESS1-3; MS-ESS3-2,3; MS-ETS1-1,4: see http://www.nextgenscience.org/search-standards
Topic: Art, Astronomy, albedo, orbital debris, debris detection
This lesson provides an introduction to orbital debris to set the stage. The concept of albedo (the ability of surfaces to reflect sunlight) is then introduced in an overview of the “Albedo Experiment,” where students will be guided through an experiment to determine the light reflecting from ‘orbiting’ objects. Concepts in this activity illustrate how albedo is employed in the study of space, specifically, in the detection of orbital debris.
When we look at the moon from Earth or the Earth from space, we are seeing reflected light, albedo. Earth is reflecting the sun's light energy and the moon is reflecting light energy from the sun and second hand sun reflection from Earth. Scientists have learned to use albedo in determining the size and shape of space objects that cannot be captured by a camera. The Air Force Phillips Laboratory in Maui, Hawaii uses albedo as one source to conduct measurements to characterize the orbital debris LEO environment. The U.S. Space Surveillance network primarily tracks deep space objects (those with orbital periods greater than 225 minutes) using optical sensors that detect reflected sunlight. The observed brightness of a space object depends on many factors besides its size, such as its orientation, its surface composition and the viewing geometry.
This experiment gives a friendly hands-on demonstration of determining and analyzing albedo and takes into account a space object in a mock revolving orientation.
2. Overview of Albedo Experiment
3. Procedure for the Experiment
4. Teacher Feedback to the Academy
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-The SEE Academy