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Launchpad: Thin Ice - Looking at Birefringence
Launchpad: Apollo 11 - Challenges of Landing on the Moon
Launchpad: Apollo 11 - History in the Making
Launchpad: Astrobiology
Launchpad: Atmosphere and Optical Telescopes
Launchpad: Bernoulli's Principle On-Board the International Space Station
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Launchpad: Cryogenics - The Cold Hard Facts
Launchpad: Cryogenics in Transportation
Launchpad: Curiosity Goes to Mars
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Launchpad: Food Availability for the Mission to Mars
Launchpad: Food for Thought
Launchpad: Gigapan
Launchpad: History, Benefits, and Safety of Radioisotope Power Systems
Launchpad: ICESat-2 - Next Generation Technology
Launchpad: Infrared Astronomy on Mauna Kea
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Launchpad: Life Cycle of a Star
Launchpad: Light Detection and Ranging
Launchpad: Mapping the Boundaries of Our Solar System
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Launchpad: Mission Infusion - A Look at What's Ahead
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Launchpad: NASA and Biosphere 2
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Launchpad: NASA's History of Winter Program
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Launchpad: New Horizons Covers the Distance
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Launchpad: Newton's Laws On-Board the International Space Station
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Launchpad: Phase Diagrams and Why You Cannot Make a Snowball on Mars
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Launchpad: SAGE III Goes to the International Space Station
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Launchpad: Space Age Technologies Measure Soil Moisture
Launchpad: Spinoffs - Technology Benefits For All
Launchpad: Surface Tension On-Board the International Space Station
Launchpad: Systems Science
Launchpad: The Fermi Gamma Ray Space Telescope
Launchpad: The Heat Is On!
Launchpad: The Lighter Side
Launchpad: The Search for Exoplanets
Launchpad: The Shuttle Experience
Launchpad: Thin Ice - Looking at Birefringence
Launchpad: Transits
Launchpad: Using Technology to Make Discoveries on Mars
Launchpad: Wave Motion
Launchpad: What Are Radioisotope Power Systems?
Launchpad: Aurora Lights: Why They Exist and What Causes Them

Launchpad: Thin Ice - Looking at Birefringence

Play video - Launchpad: Thin Ice - Looking at Birefringence
Description

Join teacher scientists as they learn what ice can tell us about the history of winter. Find out why NASA studies ice and what thin ice sections observed through polarizing filters can help us learn. See how to use bubble patterns in ice core samples to show long-term weather patterns.

Published on: November 09, 2010

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Related Links

Related NASA eClips Resources

Activities

  • Smithsonian Astrophysical Observatory (SAO)/Chandra X-Ray Center Ice Core Records. 9-12
NASA; NASA eClips; NIA; Launchpad; secondary; video; education; ice; cryosphere; winter; birefringence; polarizes; light; Frizion; crystals, weather; climate, High School, science, technology, engineering, math, STEM, Peter Wasilewski, Tony Gow, NGSS, SEP