sunset from behind the wire

sunset from behind the wire

Monday, November 19, 2018

Big Long Rock from WAY Out There


In November 2017, scientists pointed NASA's Spitzer Space Telescope toward the object known as 'Oumuamua -- the first known interstellar object to visit our solar system. The infrared Spitzer was one of many telescopes pointed at 'Oumuamua in the weeks after its discovery that October.

The new size limit is consistent with the findings of a research paper published earlier this year, which suggested that outgassing was responsible for the slight changes in 'Oumuamua's speed and direction as it was tracked last year: The authors of that paper conclude the expelled gas acted like a small thruster gently pushing the object. That determination was dependent on 'Oumuamua being relatively smaller than typical solar system comets. (The conclusion that 'Oumuamua experienced outgassing suggested that it was composed of frozen gases, similar to a comet.)
"'Oumuamua has been full of surprises from day one, so we were eager to see what Spitzer might show," said David Trilling, lead author on the new study and a professor of astronomy at Northern Arizona University. "The fact that 'Oumuamua was too small for Spitzer to detect is actually a very valuable result."
'Oumuamua was first detected by the University of Hawaii's Pan-STARRS 1 telescope on Haleakala, Hawaii (the object's name is a Hawaiian word meaning "visitor from afar arriving first"), in October 2017 while the telescope was surveying for near-Earth asteroids. The fact that the name may remind you of a US Presidency with a different density is only circumstantial...

Subsequent detailed observations conducted by multiple ground-based telescopes and NASA's Hubble Space Telescope detected the sunlight reflected off 'Oumuamua's surface. Large variations in the object's brightness suggested that 'Oumuamua is highly elongated and probably less than half a mile (2,600 feet, or 800 meters) in its longest dimension.

But Spitzer tracks asteroids and comets using the infrared energy, or heat, that they radiate, which can provide more specific information about an object's size than optical observations of reflected sunlight alone would.

The new study suggests that 'Oumuamua may be up to 10 times more reflective than the comets that reside in our solar system -- a surprising result, according to the paper's authors. Because infrared light is largely heat radiation produced by "warm" objects, it can be used to determine the temperature of a comet or asteroid; in turn, this can be used to determine the reflectivity of the object's surface -- what scientists call albedo. Just as a dark T-shirt in sunlight heats up more quickly than a light one, an object with low reflectivity retains more heat than an object with high reflectivity. So a lower temperature means a higher albedo.

A comet's albedo can change throughout its lifetime. When it passes close to the Sun, a comet's ice warms and turns directly into a gas, sweeping dust and dirt off the comet's surface and revealing more reflective ice.

'Oumuamua had been traveling through interstellar space for millions of years, far from any star that could refresh its surface. But it may have had its surface refreshed through such "outgassing" when it made an extremely close approach to our Sun, a little more than five weeks before it was discovered. In addition to sweeping away dust and dirt, some of the released gas may have covered the surface of 'Oumuamua with a reflective coat of ice and snow -- a phenomenon that's also been observed in comets in our solar system.

'Oumuamua is on its way out of our solar system -- almost as far from the Sun as Saturn's orbit -- and is well beyond the reach of any existing telescopes.
"Usually, if we get a measurement from a comet that's kind of weird, we go back and measure it again until we understand what we're seeing," said Davide Farnocchia, of the Center for Near Earth Object Studies (CNEOS) at JPL and a coauthor on both papers. "But this one is gone forever; we probably know as much about it as we're ever going to know."

9 comments:

  1. A feast for STEM types and fodder for conspiracy folks.

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    Replies
    1. Just because it's a conspiracy doesn't make it false.

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  2. Outgassing.

    Or directional jets?

    And note the similarity to the spaceship on the moon.

    https://mundooculto.es/2017/02/coordenadas-google-nave-extraterrestre-apollo-20/

    Of course there may be nothing in it. Like Dem vote fraud across the nation.

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    1. Directional jets. They took one look and went the other way. Who can blame them? The picked up the news feed of Maxine Waters and wanted no part of us.

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  3. Yep, that one's leaving 'em guessing...

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    1. They may have downloaded your novels and got all that they came for?

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