Category Archives: planetary science

Amazing Views

Hurricane Katrina advances on New Orleans (wait for it to load)
Hurricane Katrina advances on New Orleans (wait for it to load)

Here’s another astonishing bit of comparative planetary science to feast your eyes on as you explore the cosmos via the Web. This morning (August 28, 2005) we have been tracking the progress of Hurricane Katrina as it bears down on New Orleans. Earthlings are used to tracking storms this way on our planet; we’ve been doing it for the past half-century or so and are used to seeing Earth from space (and the actions of its atmosphere).

We’ve been doing the same thing on Mars now for a couple of years or more. The Red Planet doesn’t have hurricanes as we know them, although it does occasionally undergo planet-wide dust storms. But, parts of its surface do experience little storms that are NOTHING like hurricanes, but still fascinating to watch anyway. They’re called “dust devils” and they scurry along the dry and dusty plains, raising columns of dust just like little twisters.

Dust devils on Mars
Dust devils on Mars

Want to watch storms in action? For Earth, surf on over to the Weather Channel, or Goes East satellite page for views of the half of the Earth that the GOES East satellite covers.

For Mars, point your browser to the Mars Exploration Rover Page and look under “Latest Press Images” for the latest weather animations from the Red Planet.

The biggest difference is now that Katrina has the potential to do much damage and take human life. Let’s hope for the best and keep our brothers and sisters in the storm’s path in our thoughts.

Building Sedna

sedna
An artist’s conception of Sedna, a dwarf planet in the Kuiper Belt. Credit: NASA/JPL-Caltech

Remember a year or so back when the largest Kuiper Belt Object to date, named Sedna, was discovered? It shifted planetary scientists’ attention to the origin and evolution (and existence!) of large, planetoid-sized objects out beyond Pluto. They’ve been working out the fine details of Sedna’s orbit for a while now, using sophisticated models of the early solar system formation. One of the outcomes of this work is the idea that this nearly-Pluto-sized “worldlet” actually formed in place in the frigid deep-freeze of the outermost solar system. Originally scientists thought it was assembled farther in toward the Sun during the early days of the system’s formation, and was somehow ejected out to its current position.
Why does where Sedna formed matter? Astronomers have longed assumed that planetary formation took place in a rather smaller region of the original solar nebula. If Sedna was created from the collisions of smaller bodies out in the “sticks” of the solar system, then the planetary factory is bigger than everybody suspected. It also means that the Kuiper Belt, which hosts countless bodies at what used to be called “the edge of the solar system” is really part of a larger region called the Kuiper disk and played a much more prominent role in the formation of planets and moons.
The modeling that led to these conclusions was done at the Southwest Research Institute in Boulder, Colorado. In the press release they sent out announcing this work, the institute’s Executive Director for Space Studies, Alan Stern (a former colleague of mine from the University of Colorado), talked about some of the assumptions they made in constructing their model: “”The Sedna formation simulations assumed that the primordial solar nebula was a disk about the size of those observed around many nearby middle-aged stars — like the well-known example of the 1,500-AU-wide disk around the star Beta Pictoris.”
It’s interesting work because it gives us a whole lot MORE insight into the infancy of our own solar system, in particular the formation of planets from smaller planetesimals. And, chances are if Sedna formed where the astronomers think it did, then there could well be more large planetoids circling around out there with it — and that what we used to think of as the “emptiness of the outer solar system” isn’t so empty anymore. As astronomers learn more about the Sun’s outermost retinue of planetesimals, they are finding more clues to what conditions were like early in the history of solar system.