Evening passes for the ISS (International Space Station) and the Shuttle in Chicago

A number of visible passes for Chicago this week:

http://www.heavens-above.com/PassSummary.aspx?satid=25544&lat=41.781312&lng=-87.605097&loc=Chicago&alt=0&tz=CST

Aurora in Iceland, 1996

with the Pleiades and a rising Moon.

Partial solar eclipse on January 4th

The eclipse season continues, as the Moon's nodes--the intersection line of the Moon's orbital plane and the Earth's orbital plane--continue to point in the direction of the Sun and anti-Sun. After the winter solstice lunar eclipse Europe, Northern Africa, and the Middle East will get a partial solar eclipse on January 4th. The maximum eclipse reaches nearly 86% in Scandinavia, although I wouldn't really trust a low-altitude solar eclipse at the Arctic Circle this time of year to be likely visible.

Since we know the Moon's orbital plane right now, we can extrapolate to the appearance of the Moon in upcoming months and phases. We know that the first and third quarter Moons will be either higher or lower away from the ecliptic, since at new the moon was obviously at the ecliptic (to produce the eclipse). So we need one other piece of information to give us the appearance of the Moon in the sky: is the node ascending or descending? Recall the Moon passing Jupiter about two weeks ago.
Was it above or below Jupiter in the sky?

Sadly, I had to check via a planetarium program because I couldn't remember. It passed above Jupiter. So the node is ascending, and the First Quarter Moon in January will be higher than usual in the sky and the Third Quarter Moon lower (but keep in mind only in deviation from the ecliptic, not in absolute elevation in the sky). In three months (aka March-April) the full Moon will be lower in the sky than usual and rise and set further south than normal.



http://eclipse.gsfc.nasa.gov/OH/OH2011.html

Light Pollution also boosts air pollution

In addition to causing breast cancer, light pollution has now been shown to affect the atmospheric chemistry at night in urban regions, increasing the next day air pollution by up to 5%. Ignoring any deleterious effect on astronomy, why are we being idiots on this? Why can't people aim lights correctly so they don't miss well over 50% of the thing they want to light? Why can't we understand if you want to light something on the ground, you can't do it by sending light up?

http://www.bbc.co.uk/news/science-environment-11990737

http://www.treehugger.com/files/2010/12/urban-light-pollution-boosts-air-pollution.php

Pluto is bigger than Eris

A rare occultation of a star by the Kuiper Belt Object known as Eris was recorded in several stations in Chile and at first glance the data suggest Eris is in fact smaller than Pluto--the albedo of Eris must be higher than predicted.

Sky & Telescope has a good write-up.

Here's a report from one of the observers.

And here's Mike Brown's take on the observation (An observation of the observation).

Comet Hartley 2 close-up by EPOXI

Oh man, this is great. The radar images from last week indicated the comet was dog-boned shaped but the close-ups from the former Deep Impact/now EPOXI mission are great and confirmed the nature of this heterogeneous object. In other words, this looks just like some of the asteroids out there.


Credit: NASA / JPL / UMD / Emily Lakdawalla
Click to enlarge

The star next to the moon tonight

The bright "star" next to the nearly Full Moon tonight was Jupiter, in case you were wondering.

stupid UFO sightings

Hi. I've spent much of my life outside at night looking up. I've seen some amazing things. I've never seen a UFO. I've seen things that would have easily been confused as an unknown object, until I figured or observed what exactly it was. Things like inbound aircraft to O'Hare, geese lit up by stupid uplights in Chicago, spectacular bolide fireballs, reflections off of Iridium satellites, etc. The general public doesn't really look up very often, and hence doesn't really know what they are seeing. So Venus, or Jupiter, or a series of balloons become a UFO, which despite the name become a ... UFO.

http://blogs.discovermagazine.com/badastronomy/2010/10/15/nyc-fox-station-reports-jupiter-and-balloons-as-ufos/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+BadAstronomyBlog+%28Bad+Astronomy%29&utm_content=Google+Reader

Pits on the Moon

Phil Plait points out pits on the Moon!



Click to enlarge. Images via NASA/GSFC/Arizona State University/LROC

"The SDSS and e-science archiving at the University of Chicago Library"

The SDSS and e-science archiving at the University of Chicago Library

Barbara Kern, University of Chicago
Dean Armstrong, University of Chicago
Charles Blair, University of Chicago
David Farley, University of Chicago
Kathleen Feeney, University of Chicago
Eileen Ielmini, University of Chicago
Elisabeth Long, University of Chicago
Daniel Meyer, University of Chicago
Peggy Wilkins, University of Chicago



The Sloan Digital Sky Survey (SDSS) is a co-operative scientific project involving over 25 institutions worldwide and managed by the Astrophysical Research Consortium (ARC) to map one- quarter of the entire sky in detail, determining the positions and absolute brightness of hundreds of millions of celestial objects. The project was completed in October 2008 and produced over 100 terabytes of data comprised of object catalogs, images, and spectra. While the project remained active, SDSS data was housed at Fermilab. As the project neared completion the SDSS project director (and University of Chicago faculty member) Richard Kron considered options for long term storage and preservation of the data turning to the University of Chicago Library for assistance. In 2007-2008 the University of Chicago Library undertook a pilot project to investigate the feasibility of long term storage and archiving of the project data and providing ongoing access by scientists and educators to the data through the SkyServer user interface. In late 2008 the University of Chicago Library entered into a formal agreement with ARC agreeing to assume responsibility for:

• Archiving of the survey data (long-term scientific data archiving)

• Serving up survey data to the public

• Managing the HelpDesk

• Preserving the SDSS Administrative Record

This paper outlines the various aspects of the project as well as implementation.

Kepler starts releasing smaller planet data: 1.5 Earth Mass transit exoplanet found

http://www.nytimes.com/2010/08/27/science/space/27planet.html?hp

Another impact on Jupiter

http://www.skyandtelescope.com/observing/home/101264994.html

My first thought once it was confirmed was "What is the real rate of visible Jovian impacts versus our sampling rate of looking for them?".

Saturn visible behind Lutetia during flyby

Hey, this is pretty cool; I'm always a fan of planetary conjunctions.

Saturn was visible in a few of the images of Lutetia taken by Rosetta as it passed by!

Fly-by of Lutetia is a success

Another successful asteroid fly-by!
http://www.planetary.org/blog/article/00002577/

Old Mars photos from 2003: No, it's not going to be big in August.

Inspired by a query regarding the false meme going around about Mars, I took a look at some images I took of Mars during it's big opposition in 2003. That was a great opposition. Here's a couple of those images. The first one is a single image without manipulation, the second and third are Registax processed images from videos, and the last is one of those videos.
Mars at the moment is not approaching one of those awesome 17 year oppositions like 2003 or 1988. It's just fading away from its January opposition and currently visible in Leo in the evening.

Visible Jovian impact

Link and run: http://arstechnica.com/science/news/2010/06/breaking-news-jupiter-hit-by-yet-another-impactor.ars

Jupiter's SEB has gone pale

Jupiter's South Equatorial Belt, normally a brown-red, has gone as pale as the cream white zones surrounding it. Check out the report with images at the Planetary Society Blog: http://networkedblogs.com/3Jnoh. This is one of those things that happens every 5-10 years or so.

Live video feed from the International Space Station

This is great; I've been holding off on sharing this because I felt like it was too special to share widely. But here's the deal--there is a live video feed on the International Space Station. And usually it's pointing out at Earth. So literally you can watch the Earth go by live. You can experience sunrise and sunset in orbit. You can see the biggest cities' light pollution on the dark part of the orbit and sun glints of the Pacific or the swirls in the clouds in the Southern Ocean.

Here's the Live ISS video feed. If you stop the video, reload the page rather than restarting the video; otherwise regular NASA TV will start up.

See where the ISS is via http://www.heavens-above.com/orbit.aspx?satid=25544&lat=41.781312&lng=-87.605097&loc=Chicago&alt=0&tz=CST and http://www.n2yo.com
.

There are some parts of the orbit with no video download. It is also sensitive to the TDRSS capacity.

While writing this, I am watching sunrise on the ISS just south of South Africa. It is beautiful.

An asteroid collision

Color me surprised: I did not believe, when this object was first reported, and further debate on the Minor Planet Mailing List, that this was in fact a collision.

The orange object next to the full moon tonight

The bright orange "star" next to the Full Moon tonight and Friday is the planet Mars, which happens to be closest to Earth tonight (ok last night) during this current cycle (Mars and Earth come close to each other every 2 years and 2 months). And closest in only the sense of currently: it's still 99 million kilometers away.