Monthly Archives: December 2012

astronomy, books, geodesium, gift ideas, Loch Ness Productions, music

Gifting the Universe, Part III

Leave a comment

 Music of the Cosmos

Mark C. Petersen performing a live GEODESIUM concert at the Boston Hayden Planetarium. Courtesy Loch Ness Productions.

Does the universe have a soundtrack? You bet it does! And I know the guy who composes the best cosmic soundtrack music around. I’m married to him. His name is Mark C. Petersen, and he composes under the nom de plume GEODESIUM. Mark has spent much of his career creating music that evokes and teaches about the cosmos. He also founded the company that we both work for, Loch Ness Productions (we specialize in cosmically creative content).

If you’ve ever visited a planetarium or listened to Music from the Hearts of Space, or seen some of the productions on Space.com, you may have heard some of Mark’s music. It gives listeners an idea of what it’s like to be exploring the planets, drifting through nebulae, gallivanting through galaxies, and simply enjoying the glittering loveliness of a clear dark night here on Earth.

Mark got started many years ago doing music for soundtracks at the Fiske planetarium at the University of Colorado (we got married under the dome at Fiske). People would come up after the shows and ask where they could get the music they heard, and so he pressed his first album, called “Geodesium”, which is also the name he composes under.

Now he’s got eleven albums of GEODESIUM space music available through our own Web site, as well as CDBaby, iTunes, Amazon, Rhapsody, Spotify, and many other online retailers. I like them all, but I do have my favorates, including A Gentle Rain of Starlight, Stella Novus, West of the Galaxy, and Fourth Universe. A more recent album is an exploration into the rockin’ side of space music for a video-game type show called SpacePark360. He’s also got one called ‘Tis the Season that evokes the timeless traditions that many people celebrate at this time of the year. It’s a space music journey through holiday traditions. So, whether you’re looking to give music that is especially spacey or you want something a little bit rockin’ or even something to enjoy while sipping a warm holiday drink, check out Mark’s music!

Books, Books, Books

Find The Constellations, by H.A. Rey, is a perennial favorite.

People often ask me what astronomy books they should give as holiday gifts. I’ll start here with a couple of stargazing books that are by far my favorites for beginners. The first is H.A. Rey’s Find the Constellations (Houghton Mifflin), a beginner’s book for little (and even not-so-little) stargazers. It’s a great way to get the youngest observers out there and looking up!

Rey also has a book for older stargazers called The Stars: A New Way to See Them. He takes the ideas he introduced in Find the Constellations and expands on them, adding more constellations in, plus discussions about how the seasons work, and distant objects such as supernovae. Both of the H.A. Rey books introduce a system of easy-to-recognize stick figures for constellation. They’re the figures I grew up seeing in the sky and you (or whoever you give the book to) will learn to love them, too.

Terence Dickenson’s well-known book, courtesy Firefly Books.

Another favorite is Nightwatch: A Practical Guide to Viewing the Universe (Firefly Books). This one gets a lot of use when I’m doing shows or, as I’m doing now, writing an astronomy book. It’s a great reference when I want to look up when something is in the sky, and I often use it just before running outside to look at the stars. It’s spiral-bound, which is a big plus in my mind because that means if you take it outside to consult during stargazing, it lies FLAT.

A look at Navajo star legends and cosmology. Courtesy Rio Nuevo Publishers.

If you’re interested in exploring at how other cultures view the sky, I just ran across a lovely book called Sharing the Skies (Rio Nuevo Publishers) It’s written by David Begay and Nancy C. Maryboy, who both bring their cultural viewpoint and their science backgrounds to their work. I first got interested in other astronomies when I did a show for the St. Louis Science Center and we used the Collinsville Mounds as a steppingstone to the stars.

My reference work at that time included a great book by Ray Williamson called Living the Sky: The Cosmos of the American Indian (University of Oklahoma Press). It was published in 1987, but remains a wonderful resource to learn about how other cultures view the sky. And, it’s still in print!

Further along the road of exploring cultural interpretations in astronomy, you can’t go wrong with any of the books on the subject by Dr. E.C. Krupp, director of Griffith Observatory. I have SkyWatchers, Shamans & Kings and Echoes of the Ancient Skies (which is available through Griffith’s online gift shop) and both are first-rate. All these books are available at your favorite bookstores and online retailers (Amazon, Barnes and Noble), and as well as Tattered CoverPowell’s, and maybe your local bookstores, too!

 

astronomy, cassini, cassini mission, saturn, titan

Crusty Titan

Leave a comment

This Moon Continues to Surprise Us

An artist’s view of Saturn and its largest moon, Titan. Courtesy NASA/JPL-Caltech.

Everybody knows (or should know) about the Cassini Mission that has been out at Saturn for several years now studying the ringed planet and its collection of moons and rings.  I suspect the mission has collected enough data to keep scads of graduate (and probably undergraduate) research students and their advisors busy for decades.  Not to mention the work for the mission scientists who planned and executed this project.

Of particular interest has been Titan. It’s Saturn’s largest moon. At -179 degrees Celsius, it’s a very cold place. Darned cold.

Before the Cassini mission we knew it was covered with a hazy hydrocarbon smog and that its surface was solid ice.  The Voyager missions provided us with some up-close looks and some interesting chemistry of the clouds.  Cassini’s Huygens lander showed us what the surface looked like, and repeated studies by the mother ship as it loops past Titan have given us a continual look at this once-mysterious world.

Titan has a very thick icy crust, thicker than scientists thought before the Cassini Mission began radar mapping this moon. Radar signals give scientists a way to chart and measure landforms on a surface.

A false-color mosaic of Titan’s polar region, taken using synthetic aperture radar to chart land forms and features. Features thought to be liquid are shown in blue and black, and the areas likely to be solid surface are tinted brown. The terrain in the upper left of this mosaic is imaged at lower resolution than the remainder of the image
Most of the many lakes and seas seen so far are contained in this image, including the largest known body of liquid on Titan. These seas are most likely filled with liquid ethane, methane and dissolved nitrogen. Courtesy NASA/JPL-Caltech.

Long before the Cassini Mission arrived, Titan had attracted scientists as a place to study. This is because it actually some similarities to Earth. For example, Titan appears to have a layered structure, just as our planet does.  It very likely has a core that is a mixture of ice and rock.  Scientists suspect the rock is rich with radioactive elements left over from the time when the planets and moons were forming.  Earth has a similar radiogenic inventory at its core. And, those radioactives generate heat as they decay.  Above the core is a watery ocean, which is heated by the radioactive heat from inside.  Capping off Titan is a frozen crust.

So, how do planetary scientists know that Titan’s crust is so thick?  Take a look at Titan’s orbit.  As this moon goes around Saturn, it spins on its axis (just as Earth does while at the same time orbiting the Sun).  Titan spins once around for each orbit it makes around Saturn.  There’s a gravity instrument onboard Cassini to measure the resistance of Titan to any changes in its spin – also called the moment of inertia, or MOI.  The MOI is affected by the thickness of Titan’s internal layers. MOI data allow scientists to  calculate the moon’s internal structure. That’s exactly what Stanford University professor Howard Zebker and his students did. Their work is described in detail in a Stanford press release. 

“The picture of Titan that we get has an icy, rocky core with a radius of a little over 2,000 kilometers, an ocean somewhere in the range of 225 to 300 kilometers thick and an ice layer that is 200 kilometers thick,” he said.

This is actually more ice than scientists expected. So, if there is more ice, then there should be less heat from the core to melt the ice than estimated. So, what’s happening? One way to account for less heat being generated internally is for there to be less rock and more ice in the core than previous models had predicted.

That all seems simple enough, but there is a complication. Titan is not exactly spherical. It’s actually more of an oblate (flat) ball. It gets this shape because Saturn’s gravity is pulling on it, making it look oblong along its equator and a little flattened at the poles.

So, this means that we can compute a correct shape for Titan based on models of its layers and  models of Saturn’s gravitational pull, right?  Well, yes, except the team’s data suggest that Titan is more distorted than it should be, and THAT implies that Titan’s internal structure may be more complex than everybody thought.

For one thing, the density of material under Titan’s poles must be slightly greater than it is under the equator. Since liquid water is denser than ice, Zebker’s team reasoned that the ice layer must be slightly thinner at the poles than at the core, and the layer of water correspondingly thicker. These are not the kinds of thicknesses you’d see if the simple layered model and gravitational-pull model were used to figure out Titan’s internal structure. So, there has to be something else at work.

Zebker said the variation in ice thickness could be a result of variation in the shape of Titan’s orbit around Saturn, which is not perfectly circular. “The variation in the shape of the orbit, along with Titan’s slightly distorted shape, means that there is some flexure within the moon as it orbits Saturn,” he said.  The planet’s other moons also exert some tidal influence on Titan as they all follow their different orbits, but the primary tidal influence is Saturn.

“The tides move around a little as Titan orbits and if you move anything, you generate a little bit of heat.”

The tidal interactions tend to be more concentrated at the poles than the equator, which means that there is slightly more heat generated at the poles, which in turn melts a little bit of ice at the bottom of the ice layer, thinning the ice in that region in comparison to other parts of Titan. More studies should help scientists like Zebker pin this one down.

Stargazing Anyone?

Speaking of cold places, it’s getting close to winter for northern hemisphere stargazers.  Cold weather doesn’t mean you get to stay inside all the time. The December skies are gorgeous, so it’s well worth bundling up and checking them out.  Of course, our friends in the southern hemisphere are starting to get that nice summertime weather, which makes stargazing even MORE delightful. So, get out there and look up!  To find out what’s up and what’s happening, check out December edition of Our Night Sky at Astrocast.TV.