The first event occurred just a few days ago, when the twin STEREO spacecraft finally took up positions on opposite sides of the Sun. (We space junkies sometimes forget that the Sun is part of our solar system.) For the first time, solar scientists can monitor all of the Sun's disk at once — and that'll pay big dividends as solar activity ramps up in the months ahead.
An artist's portrayal of the Stardust spacecraft approaching Comet Tempel 1 on February 14, 2011.
Since then Tempel 1 has made one complete trip around the Sun, and on February 14th it'll again be in the crosshairs (this time just with instruments) of the Stardust
spacecraft. This is a great example of how old spacecraft can do new tricks: Stardust completed its primary mission five years ago after zipping through the coma of Comet Wild 2 in early 2004 and dropping off a sample capsule when it swung past Earth. But the main spacecraft remained in solar orbit, and now it's posed to reconnoiter a second
comet.
(Officially, the mission's name is now Stardust-NeXT — that latter bit standing for "New Exploration of Tempel 1" — but it's just too much of a stretch for my taste.)
In the best of all worlds, Stardust's camera would record the crater made by Deep Impact's copper-cored cannonball. But even if the nucleus has rotated it from view, there's still plenty to look at. The nucleus of Tempel 1 appears to have multiple layers and bizarre flows. Can a mountain-size blob of ice and dirt be geologically active? We'll have more answers to that question very soon.
There's no letup in the pace of solar-system exploration once Stardust has its hi-and-bye. In fact, NASA officials
have dubbed 2011 the "Year of the Solar System." Well, truth be told, in their minds YSS began last October, when Deep Impact visited its second comet, 103P/Hartley 2, and it won't end until August 2012, when the not-even-launched-yet rover Curiosity (a.k.a. Mars Science Laboratory) reaches Mars.
Whatever. Here's a rundown of the other interplanetary headlines you can expect to see in the coming months:
March 18: After three warm-up flybys, NASA's Messenger
spacecraft will fire its braking rocket and slip into a looping polar
orbit around Mercury that comes within 125 miles (200 km) of its
surface. Equipped with seven very capable cameras, spectrometers, and
other instruments, Messenger has already made a trove of new
discoveries about the innermost planet. But the real science
breakthroughs (such as its interior structure) will come after the
orbiter has made long-term observations. Messenger is a contraction of
"Mercury Surface, Space Environment, Geochemistry, and Ranging."
The Dawn spacecraft will reach 4 Vesta, which is hands down the
asteroid belt's most amazing chunk of rock: it's thought to have an
iron–nickel core, a rocky olivine mantle, a crust, lava flows, and a
giant crater. The spacecraft has been almost gliding toward Vesta using
ion-fueled thrusters, and it will remain in orbit for a year before
easing away and setting course for 1 Ceres. (Remarkably, Dawn isn't an
acronym and doesn't stand for anything.) This mission's website is here, and I highly recommend the "Dawn Journal" written by chief engineer Marc Rayman.
spacecraft. This is the first outer-planet-bound spacecraft to use
solar-cell arrays, rather than plutonium power packs, to generate
electricity. When it reaches Jupiter in 2016, Juno is to slip into a
looping polar orbit that will both subject it to dangerously high
radiation levels and, its science team hopes, answer key questions
about the planet's composition, its interior structure, and from those
how our solar system formed. Also not an acronym, Juno is named for the
jealous god-sister-wife of Jupiter in Roman mythology.
spacecraft rocket skyward from Cape Canaveral, Florida. The Gravity
Recovery and Interior Laboratory mission intends to fly these craft in
tandem just 30 miles (50 km) above the lunar surface. By carefully
tracking how the Moon's gravity alters the crafts' orbital motion,
scientists hope to map the Moon's gravity field with unprecedented
detail and, using that, derive the detailed structure of the lunar
interior from crust to core.
Conceived in 1996 to land on the larger of Mars's two satellites and
return a sample to Earth, this spacecraft has had more transformations
than Cher at the Academy Awards! In its latest configuration, the
spacecraft will carry a passenger, the Chinese-built spacecraft Yinghou
1, which will detach from Phobos-Grunt and orbit Mars for up to a year.
Plans still call for the main spacecraft to land on Phobos, scoop up
several samples totaling a total of 3 to 5½ ounces (85 to 160 g), and
return them to Earth by early 2013.
November 25: Another troubled mission, Mars Science Laboratory,
will begin its flight to Mars. The primary scientific objective is
straightforward: assess whether the Red Planet ever had an environment
conducive to life — or still does. But MSL, renamed Curiosity after a Disney-inspired contest in 2009, has had a world of trouble getting to the launch pad. The beefy 1-ton lander should have already reached Mars, but development problems caused a two-year launch delay and ballooned its price tag to $2½ billion.
All these dates are subject to change, so to keep up to date I recommend that you check Ron Baalke's comprehensive Space Calendar for the latest schedules.
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