Video: Visioning the Cosmos – An Artist’s Perspective

From last summer’s SETICon 2 event organized by the SETI Institute, here is a video of a panel discussion titled: Visioning the Cosmos – An Artist’s Perspective.

From the video caption the panelists:

  • Charles Lindsay — He photographs at the interface between nature and culture. It is his fascination with our relationship to the earth which connects all of his work…
  • Lynette Cook — most widely known as an out-of-this-world space artist, Cook has enthralled …
  • Rosaly Lopes — Dr. Rosaly M. C. Lopes is a Senior Research Scientist at NASA’s Jet Propulsion Laboratory….
  • Moderator: Gabriel Alvarado-Marín — a visual designer and illustrator at the SETI Institute, …

ESO: Beautiful view of a bright star cluster

This week’s finding from the European Space Observatory (ESO):

A Colourful Gathering of Middle-aged Stars

The MPG/ESO 2.2-metre telescope at ESO’s La Silla Observatory in Chile has captured a richly colourful view of the bright star cluster NGC 3532. Some of the stars still shine with a hot bluish colour, but many of the more massive ones have become red giants and glow with a rich orange hue.

The colourful star cluster NGC 3532

The MPG/ESO 2.2-metre telescope at ESO’s La Silla Observatory in Chile captured this richly colourful view of the bright star cluster NGC 3532. Some of the stars still shine with a hot bluish colour, but many of the more massive ones have become red giants and glow with a rich orange hue. Credit: ESO/G. Beccari

NGC 3532 is a bright open cluster located some 1300 light-years away in the constellation of Carina (The Keel of the ship Argo). It is informally known as the Wishing Well Cluster, as it resembles scattered silver coins which have been dropped into a well. It is also referred to as the Football Cluster, although how appropriate this is depends on which side of the Atlantic you live. It acquired the name because of its oval shape, which citizens of rugby-playing nations might see as resembling a rugby ball.

This very bright star cluster is easily seen with the naked eye from the southern hemisphere. It was discovered by French astronomer Nicolas Louis de Lacaille whilst observing from South Africa in 1752 and was catalogued three years later in 1755. It is one of the most spectacular open star clusters in the whole sky.

NGC 3532 covers an area of the sky that is almost twice the size of the full Moon. It was described as a binary-rich cluster by John Herschel who observed “several elegant double stars” here during his stay in southern Africa in the 1830s. Of additional, much more recent, historical relevance, NGC 3532 was the first target to be observed by the NASA/ESA Hubble Space Telescope, on 20 May 1990.

This grouping of stars is about 300 million years old. This makes it middle-aged by open star cluster standards [1]. The cluster stars that started off with moderate masses are still shining brightly with blue-white colours, but the more massive ones have already exhausted their supplies of hydrogen fuel and have become red giant stars. As a result the cluster appears rich in both blue and orange stars. The most massive stars in the original cluster will have already run through their brief but brilliant lives and exploded as supernovae long ago. There are also numerous less conspicuous fainter stars of lower mass that have longer lives and shine with yellow or red hues. NGC 3532 consists of around 400 stars in total.

The background sky here in a rich part of the Milky Way is very crowded with stars. Some glowing red gas is also apparent, as well as subtle lanes of dust that block the view of more distant stars. These are probably not connected to the cluster itself, which is old enough to have cleared away any material in its surroundings long ago.

This image of NGC 3532 was captured by the Wide Field Imager instrument at ESO’s La Silla Observatory in February 2013.

The long history of the Black Beauty from Mars

Here’s the marvelous story behind the Black Beauty Mars meteorite : A castaway from ancient Mars –  Science/AAAS.

Piatek sent the stone to Agee, who wasn’t convinced that it was a meteorite at all. It didn’t have the heft of a chondrite, which are typically rich in dense metals. And the scaly skin—the “fusion crust” that forms on the superheated surface of a falling meteorite—seemed so shiny that it might be fake. “I thought someone had taken a desert stone and spray-painted it,” Agee says. Nonplussed, he stuck the rock on a shelf for a few months. Eventually, in the fall of 2011, he took a diamond-tipped rock saw, sliced off one end of the stone—and marveled at what he saw inside. Dark, angular crystals of pyroxene floated alongside white, chunky feldspars. Large, faint pebbles sat next to tiny, dark beads. It was evocative of the lunar breccias Agee recalled from the Apollo days—except that Black Beauty’s spherules were much more diverse.

Agee now knew he had a meteorite, but what was it? He chipped off a gram piece and put it under an electron microprobe, which uses an electron beam to excite atoms in the rock’s minerals. The atoms then emit x-rays that reveal the sample’s chemical makeup. It turned out that the rock had an elevated manganese-to-iron ratio—higher than that in Earth rocks and consistent with other martian meteorites. Next, Agee and his colleagues used a laser to extract water molecules trapped within minerals in the meteorite and fed them into a mass spectrometer to calculate the ratio of deuterium, a heavy isotope of hydrogen, to ordinary hydrogen. Every place in solar system has a distinctive ratio. Lo and behold, the copious water in Black Beauty was Mars-like.

See also Researchers Identify Water Rich Meteorite Linked To Mars Crust – NASA –


Designated Northwest Africa (NWA) 7034, and nicknamed “Black Beauty,”
the Martian meteorite weighs approximately 11 ounces (320 grams). Credit: NASA

The Space Show this week – Nov.24.14

The guests and topics on The Space Show this week:

1. Monday, Nov. 24, 2014: 2:00-3:30PM PST (5:00-& 6:30 PM EST, 4:00-5:30 PM CST): We welcome back Erik Seedhouse on his new book, Bigelow Aerospace: Colonizing Space One Module at a Time.

2. Tuesday, Nov. 25 2014:,7-8:30 PM PST (10-11:30 PM EST, 9-10:30 PM CST): We welcome back for a full Space Show program the MIT Team that did the Mars One Analysis Study. You will be able to email and phone in questions and comments to team members regarding their study, Mars One, and the issues they investigated. As a primer & for info on the team (their professor will not be joining us), please see our Hotel Mars program from Oct. 15, 2014 (

3. Friday, Nov. 28, 2014, 9:30 -11 AM PST (12:30-2 PM EST; 11:30-1 PM CST): No Show due to Thanksgiving Holiday & Space Show listeners rushing off to Wal-Mart for Black Friday! .

4. Sunday, Nov. 30 2014, 12-1:30 PM PST (3-4:30 PM EST, 2-3:30 PM CST): We welcome back Frank White, author of The Overview Effect. Frank’s new edition of this classic is now available so our guest will share updates and new information with us.

See also:
/– The Space Show on Vimeo – webinar videos
/– The Space Show’s Blog – summaries of interviews.
/– The Space Show Classroom Blog – tutorial programs

The Space Show is a project of the One Giant Leap Foundation.