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What scientists can learn about Moon during Jan. 31 Eclipse

| | Jan 24, 2018, at 02:27 pm

Washington, Jan 24 (IBNS): The lunar eclipse on Jan. 31 will give a team of scientists a special opportunity to study the Moon using the astronomer’s equivalent of a heat-sensing, or thermal, camera.

Three lunar events will come together in an unusual overlap that’s being playfully called a super blue blood moon. The second full moon in January will take place on the 31st, making it the first blue moon of 2018. It also will be considered a supermoon — one that appears slightly larger and brighter than usual because it occurs when the Moon is near its perigee, or the closest point in its orbit to Earth.

In addition, a lunar eclipse will take place in the morning on Jan. 31, temporarily giving the Moon a reddish color known as a blood moon.

For the researchers, the eclipse offers a chance to see what happens when the surface of the Moon cools quickly. This information will help them understand some of the characteristics of the regolith — the mixture of soil and loose rocks on the surface — and how it changes over time.

“During a lunar eclipse, the temperature swing is so dramatic that it’s as if the surface of the Moon goes from being in an oven to being in a freezer in just a few hours,” said Noah Petro, deputy project scientist for NASA’s Lunar Reconnaissance Orbiter, or LRO, at Goddard Space Flight Center in Greenbelt, Maryland.

Normally, the transitions into and out of darkness, and the temperature changes that go with them, are spread out over the course of a lunar day, which lasts 29-and-a-half Earth days. A lunar eclipse shifts these changes into high gear.

From the Haleakala Observatory on the island of Maui in Hawaii, the team will conduct their investigations at invisible wavelengths where heat is sensed. They’ve done this kind of study a few times already, singling out individual lunar locations to see how well they retain warmth throughout the eclipse.

“The whole character of the Moon changes when we observe with a thermal camera during an eclipse,” said Paul Hayne of the Laboratory for Atmospheric and Space Physics at the University of Colorado Boulder. “In the dark, many familiar craters and other features can’t be seen, and the normally non-descript areas around some craters start to 'glow,' because the rocks there are still warm.”

How quickly or slowly the surface loses heat depends on the sizes of the rocks and the characteristics of the material, including its composition, how porous it is and how fluffy it is.

Lunar scientists already know a lot about the day-to-night and seasonal temperature changes from the data collected by LRO’s Diviner instrument since 2009. Those longer-term variations reveal information about larger features and the bulk properties of the top few inches of regolith. The short-term changes due to the eclipse will get at details of the fine material and the very top layer of the regolith.

By comparing the two types of observations, the team is able to look at variations in particular areas — say, the lunar swirls at Reiner Gamma or an impact crater and the loose debris around it.

This kind of information is useful for practical purposes such as scouting out suitable landing sites. It also helps researchers understand the evolution of the surface of the Moon.

“These studies will help us tell the story of how impacts large and small are changing the surface of the Moon over geological time,” said Petro.

Launched on June 18, 2009, LRO has collected a treasure trove of data with its seven powerful instruments, making an invaluable contribution to our knowledge about the Moon. LRO is managed by NASA's Goddard Space Flight Center in Greenbelt, Maryland, for the Science Mission Directorate at NASA Headquarters in Washington, D.C., and is part of the Discovery Program managed by NASA’s Marshall Space Flight Center in Huntsville, Alabama.

Image Credit: NASA

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