Category Archives: Mars

Across the Light-years from Andromeda

Revisiting the Past

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Light Years from Andromeda, 2009

This week Mark and I are releasing a fulldome show version of the very first Loch Ness Productions planetarium show I ever wrote, called Light Years from Andromeda. It tells one of the most important stories in astronomy and cosmology — that of cosmic distance, and humanity’s quest to understand the universe. It is, as we say on the show’s Web page touting the show, “a journey of epic proportions across space and time.”

It seems particularly appropriate to talk about it today, with the release of a new, more precise value for the Hubble Constant. That constant is one of the numbers astronomers use to determine the expansion rate of the universe.  Knowing that expansion rate helps us also determine other factors like the size of the universe and just how old the universe really is. But, the root of all this knowledge is cosmic distance.

Distance in the universe is important to understand, and it is measured by using “standard candles” in the darkness. The standard candles are usually specific types of supernova explosions and, in particular,  a type of pulsating star called a Cepheid variable.  These pulsate with a regular rhythm and they are found in every galaxy we’ve seen so far. You can use the observations of those candles to derive distances across the cosmos.

In Light Years from Andromeda, we focus on a distance that most people have heard of, even if they aren’t up on the latest in cosmology: the light-year. It’s the distance that light travels in a year at a speed of roughly 300,000 kilometers per second. We wanted to bring that figure into some kind of reality for people, so I decided to take them out to the Andromeda Galaxy, which lies some 2.5 million light-years away.  We begin the show there, some 2.5 million years ago, and we bring people back home to the Milky Way, across all that time and space at the speed of light. Along the way we discuss human history set against that travel time. And, when we arrive at Earth, we learn about light-speed and the way that we can use light to measure cosmic distances.  It’s really a simple concept and a simple story to tell. And, it’s been very satisfying to see the show come to life in the new fulldome medium, where we really CAN fly from one galaxy to another and take in the breathtaking beauty of the cosmos.  And, to have it come out now, when the precision of the Hubble Constant is even better than before — well, it just sends chills up my spine. These are the times that make my day as a science writer!

(Check out the trailer for the show below.)

Light Years from Andromeda trailer

Visiting Mars

Closeup on the Red Planet

I’m working on a new program about Mars and the latest discoveries the various spacecraft missions have been delivering up for planetary scientists. No matter how you look at it, Mars is fascinating. The more we look, the more we find. And the more we find, the more questions we have about this desert world.  I’ve been looking at Mars rover images and also at some of the stunning scenes available from the HiRise Camera on the Mars Reconnaissance Orbiter spacecraft. This mission is cranking out images every day, giving us a close to “real time” view of the planet.

The main thing that I think every time I see Mars images is just how ancient the place seems. The volcanoes are dead (or at least very quiescent), the landscapes are covered in layers of windblown dust, and stunningly shaped dunes sprawl across various places. In some places, everything seems to be eroding away (if slowly).  This is the face of change on Mars — spurred by seasonal weather variation, windblown erosion, and the occasional cratering event. As the seasons progress, ice melts, carbon dioxide outgasses, and water ice melts and sublimates. All these events alter the surface in different ways.

Ganges Chasma as seen by the HiRise camera on the Mars Reconnaissance Orbiter. (Click to embiggen.)
Ganges Chasma as seen by the HiRise camera on the Mars Reconnaissance Orbiter. (Click to embiggen.)

One of the most dramatic places on the planet is Valles Marineris, that long sunken trough and canyon network that hacks across a third of Mars’s surface. HiRise looked at a small section of Ganges Chasma, which is a trough that makes up part  of Valles Marineris.  The image is just stunning.

Long ago, the surface of Mars in this region was flooded by lava flows. After that, time and wind began changing the surface. Windblown dust and sand covered up everything. If you click on the image and examine the larger version more closely, particularly the region near the edge of this chasm, it looks brighter and smoother than the lava flows underneath.  Could this be sediments put in place by flowing water?  Or did an explosive v0lcanic event layer the region with fine dust?  Or, was it the work of the incessantly blowing Martian winds depositing layer upon layer of fine dust? A combination of all these factors?

Then, of course, you should explore the inner walls of this chasm. They look familiar, especially if you’ve ever been to areas on Earth where water has carved through canyon walls to reveal layers of rock.  Valles Marineris itself is a huge crack in the surface that formed a long time ago and affected by volcanic stress at one end and erosion along its entire length. There’s also some possibility that parts of Valles Marineris could have been carved out by the action of water or carbon dioxide.

It’s tough to tell the whole story of Mars in a short program, but if I had to summarize Mars and its surface history in a few words, it would be dry, dusty, cold, ancient, changing slowly by degrees.  It’s far from a dead world — just a very quiet and slowly changing one.

As I was writing this entry, I happened to hop over to Bad Astronomy. Phil Plait has also been touched by Mars today — go see what’s got him going!