All posts by Tom

Sentinel-2A Launch Replay

Here’s a replay of the launch of Sentinel-2A, the second satellite of Europe’s Copernicus environment monitoring program. Video courtesy of ESA.

From ESA:
Designed as a two-satellite constellation – Sentinel-2A and -2B – the Sentinel-2 mission carries an innovative wide swath high-resolution multispectral imager with 13 spectral bands for a new perspective of our land and vegetation. This information will be used for agricultural and forestry practices and for helping manage food security. It will also provide information on pollution in lakes and coastal waters. Images of floods, volcanic eruptions and landslides contribute to disaster mapping and help humanitarian relief efforts.

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Triple Crescents

his beautiful image from the Cassini spacecraft showing three of Saturn’s moons as crescents is too good to pass up.

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The largest moon in the image is Titan (also Saturn’s largest moon), notice how the crescent seems to wrap much around the moon more than the other two. Titan has an atmosphere that refracts light around the moon than it would otherwise would.

Rhea is in the upper left shows more cratering, especially if you click the image to see a larger version.  I believe we may be able to see the Tirawa impact basin in the image.

Mimas is the bottom moon in the image. Of the three Mimas is probably my favorite. It has a HUGE impact crater called Herschel – almost a full third of the moons diameter!

Physical charachterisitics and images
for each of the moons can be found at the links to each below.

Spacecraft to moon distances:
To Titan – 2 million km / 1.2 million miles
To Rhea – 3.5 million km / 2.2 million miles  (see the Tirawa impact basin)
To Mimas – 3.1 million km / 1.9 million miles  (check out Herschel)

Image Credit: NASA/JPL-Caltech/Space Science Institute

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Coronal Mass Ejection

The Solar Dynamics Observatory gives us this great view of a coronal mass ejection (CME) from the side of the Sun. The image is captured in the 304 Angstrom Wavelength of extreme ultraviolet light on 17 to 18 June 2015.

sunCME

Had this CME been directed towards Earth there could have been impacts like those we always hear about, namely communication and power disruptions. The news media usually likes to tell us how bad things could be and sometimes we ignore what they say because, well, they always say it. The truth is all of that stuff could happen and be as bad as they like to say OR anywhere along a continuum between just a beautiful aurora and that  doom and gloom scenario.

Being a ham radio operator I can tell you communications disruptions are not really uncommon in such events, they can be kind of fun too. Commercial communication problems would not be fun and we have been on the LUCKY side of things so far.

Anyway, enough rambling; there is a great video of this CME, a four hour period is represented.

Take your pick of videos, they are the same just different formats.  (Links to the SDO site):
CME304_June_sm.mov – mov
CME304_June_sm.mp4 – mp4

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Shining Boulders

khepryiceThese images from the Rosetta orbiter around Comet 67P/Churyumov-Gerasimenko show what appear to be a shiny rock outcrop in the Khepry region (top image) and a lone boulder in the Hatmehit region (bottom image). There have been 120 such areas like these found on the comet.

These particular images were taken last September from about 20 km.

What are the shiny objects? They are thought to be exposed patches of water-ice!

Panspermia anyone?

Check out the full story: Exposed water ice detected on comet’s surface

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Ceres Orbital Image 11

ceresorb11

Here is another image of the mysterious bright spots on Ceres. This image was taken by the Framing Camera on the Dawn Spacecraft.

The image was taken from a distance of 4,400 km / 2,700 miles with a resolution of 410 meters / 1,400 feet per pixel.

What are those spots? Nobody knows for sure – yet.

Image Credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA

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See Mercury in the Morning Sky

mercury

This morning the planet Mercury is at maximum western elongation. This means we will be able to see Mercury in the early morning just before sunrise especially for the next few days.

Yes, western elongation means Mercury will be in the eastern sky before sunrise. It can be a little confusing at first. The western/eastern elongation is the position relative to the Sun not the Earth.

So western elongation means Mercury is west of the sun and that being true will rise in our eastern sky before the sun. Mercury this morning will reach an altitude of 22 degrees before sunrise. If you have a good view of the eastern sky you will get to see it (for the next few days at least) in the twilight before the Sun gets too bright. I know, it’s early morning for the northern hemisphere but so worth it. I am pretty close to a mountain range and that interferes so I’m taking a drive to get a better look IF the clouds stay away.

In September the planet will reach eastern elongation so it will appear in the western sky just after sunset.

Check it out if you can.

Image Credit:
NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington

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Charon’s Discovery

charon

Yesterday was the anniversary of the discovery of Pluto’s moon Charon. The moon was found by astronomer James Christy while using the 1.55 meter telescope at the US Naval Observatory Flagstaff Station on 22 June 1978 and announced to the world on 07 July 1978 by the IAU.

Above is the image the moon was spotted in. The image above is Pluto, the image on the left shows a “bulge” near the top that is not in the iamge on the right. The so-called bulge would appear and disappear over time and the period between subsequent “bulges” corresponded to the rotational period of Pluto.

It also turns out this “bulge” was seen and confirmed in hindsight on photographic plates going back to 29 April 1965.

Just think in a few short weeks we will be treated to a very good look at this moon.  Quite a difference between then and now already and we haven’t seen anything yet!

Image: USNO  / NASA

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Dark Pole on Charon

charondarkpole

In the latest images from the LORRI imager aboard the New Horizons spacecraft we can now see that Pluto’s moon Charon has a dark pole. Why a dark pole? It’s another mystery.

“This system is just amazing,” said Alan Stern, New Horizons Principal Investigator, from the Southwest Research Institute, Boulder, Colorado. “The science team is just ecstatic with what we see on Pluto’s close approach hemisphere: Every terrain type we see on the planet—including both the brightest and darkest surface areas —are represented there, it’s a wonderland!

“And about Charon—wow—I don’t think anyone expected Charon to reveal a mystery like dark terrains at its pole,” he continued. “Who ordered that?”
That’s not all, Pluto’s terrain is more variable than anyone could have guessed.

Check out the update at NASA they have a short video and montages of Pluto.

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Martian Clouds

marsclouds2The THEMIS instrument on the Mars Odyssey orbiter gives us this image of clouds on Mars (see NASA’s explanation below).

On 23 June 2015 the Mars Odyssey Orbiter will complete 60,000 orbits around Mars. That means the spacecraft has traveled 1.43 Billion km / 888 million miles and that does not include the travel to the planet. According to David Lehman, project manager for the Mars Odyssey at JPL: “The spacecraft is in good health, with all subsystems functional and with enough propellant for about 10 more years”.

The image shown here is a cropped version, click it to see the original version.

Here’s NASA’s caption:
Pavonis Mons stands about nine miles (14 kilometers) high, and the caldera spans about 29 miles (47 kilometers) wide. This image was made by THEMIS through three of its visual-light filters plus a near-infrared filter, and it is approximately true in color.

THEMIS and other instruments on Mars Odyssey have been studying Mars from orbit since 2001.

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Saturn and Dione

dioneandsat

A Cassini image of Saturn with moons Dione in the foreground and Enceladus just above the rings seen to the right hand side.

The iamge was taken in visible light with Cassini’s wide angle camera from a distance of 77,000 km / 44,000 miles to Dione.

Click the image for a larger version. One of those images that would make a great framed poster.

Image Credit: NASA/JPL-Caltech/Space Science Institute

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