NASA/JPL-Caltech
This artist's concept features NASA's Mars Science Laboratory Curiosity rover, a mobile robot for investigating Mars' past or present ability to sustain microbial life. Curiosity is slated to launch toward the Red Planet on Nov. 25, 2011.
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updated 11/21/2011 2:49:06 PM ET 2011-11-21T19:49:06

After nearly a decade of planning, several cost overruns and a two-year delay, NASA is finally set to launch its next Mars rover this week.

The car-size Curiosity rover, the centerpiece of NASA's $2.5 billion Mars Science Laboratory (MSL) mission, is slated to blast off from Florida's Cape Canaveral Air Force Station on Saturday after a one-day delay due to a rocket battery issue. The launch comes two years later than the MSL team had originally planned, a slip that ultimately increased the mission's lifetime costs by 56 percent.

But with Curiosity now sitting on the pad, nestled atop its Atlas 5 rocket, MSL's past issues are receding deeper into history. Most eyes are now on the rover's future — its quest to determine if Mars is, or ever was, capable of supporting microbial life.

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"This is a Mars scientist's dream machine," Ashwin Vasavada, MSL deputy project scientist at NASA's Jet Propulsion Laboratory (JPL) in Pasadena, Calif., told reporters on Nov. 10. "This rover is not only the most technically capable rover ever sent to another planet, but it's actually the most capable scientific explorer we've ever sent out." [Photos: NASA's Mars Science Laboratory Rover]

A beast of a rover
NASA began planning MSL's mission in 2003. Over the past eight years, scientists and engineers developed, built and tested Curiosity, a robotic behemoth that will take planetary exploration to a new level.

At 1 ton, Curiosity weighs five times more than each of its immediate Mars rover predecessors, the golf-cart-size twins Spirit and Opportunity, which landed on the Red Planet in January 2004 to search for signs of past water activity.

While Spirit and Opportunity each sported five scientific instruments, Curiosity boasts 10, as well as a drill that will allow it to access the interior of Red Planet rocks.

The huge rover will use all of this gear to gauge the past and present habitability of its Martian environs. It will look for carbon-containing compounds — the building blocks of life as we know it — and assess what the Red Planet was like long ago.

MSL is not a life-detection mission, but it will lay the foundation for future efforts that could hunt for evidence of microbial Martians, officials said. "We bridge the gap from 'follow the water' to seeking the signs of life," said Doug McCuistion, head of NASA's Mars exploration program.

A long cruise to Mars, and a novel descent
Friday's launch will kick off an 8 1/2-month cruise to Mars, with the MSL spacecraft arriving at the Red Planet in August 2012.

All planetary landings make mission scientists and managers sweat a little bit, but Curiosity's will probably be more nerve-wracking than most. A rocket-powered sky crane will lower the huge rover to the Martian surface on cables — a method that has never been tried before.

The sky crane performed well in full-up computer simulations, so it should work on the Red Planet, officials said.

"Entry, descent and landing is always an exciting time and a challenging time," said MSL project manager Pete Theisinger of JPL. "We're confident in our ability to do it successfully at the planet, but it is clearly not risk-free."

Checking out Gale Crater
Curiosity will touch down at Gale Crater, a 100-mile-wide (150 kilometers) hole in the ground with a mysterious 3-mile-high (5-kilometer-high) mountain rising from its center. The rover will poke around Gale, scrutinizing and sampling the dirt and rocks it encounters.

Curiosity's mission is designed to last for about two Earth years, but it wouldn't be a shock if the rover kept chugging along for significantly longer, officials said. Spirit and Opportunity, after all, far outlasted their planned three-month mission lifetimes. NASA just declared Spirit dead this year, and Opportunity is still cruising around Mars, checking out a huge crater called Endeavour.

"We do test all the mechanism equipment for three times its normal life," Theisinger said. If all goes well, he added, "we should be good for quite an extended period of time."

And Curiosity is powered by radioisotope thermoelectric generators — which produce electricity from the radioactive decay of plutonium — rather than solar cells. The rover should thus be able to handle the harsh Martian winters well, Theisinger said.

So NASA officials expect the launch to mark the start of something big.

"We'll excite the nation, we'll inspire the nation. We're going to show incredible new vistas, great new discoveries," McCuistion said. "The launch is just the beginning."

You can follow Space.com senior writer Mike Wall on Twitter: @michaeldwall. Follow Space.com for the latest in space science and exploration news on Twitter @Spacedotcom and on Facebook.

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Video: How NASA's probe will get to Mars

Photos: Mars Curiosity rover

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  1. A United Launch Alliance Atlas V rocket carrying NASA's Mars Science Laboratory Curiosity rover lifts off from Launch Complex 41 at Cape Canaveral Air Force Station in Cape Canaveral, Fla., Saturday, Nov. 26, 2011. (Terry Renna / AP) Back to slideshow navigation
  2. The Mars Science Laboratory, and accompanying Atlas V rocket, is hoisted into place at Launch Complex 41 at Cape Canaveral Air Force Station in Florida. (Kim Shiflett / NASA) Back to slideshow navigation
  3. NASA technicians look over the Mars Science Laboratory Curiosity rover during inspections at the Jet Propulsion Laboratory in Pasadena, Calif. (NASA) Back to slideshow navigation
  4. NASA technicians examine the wheels of the Mars Science Laboratory rover. (Dutch Slager / NASA via AP) Back to slideshow navigation
  5. Technicians examine the turret at the end of the Mars Science Laboratory's arm. The turret weighs 73 pounds and holds the machines that will touch the rocks and soil on Mars. (Frankie Martin / NASA) Back to slideshow navigation
  6. The Mars Science Laboratory's Entry, Descent and Landing Instrument will measure heat shield temperatures and atmospheric pressures during the spacecraft's high-speed, extremely hot entry into the Martian atmosphere. (Lockheed Martin) Back to slideshow navigation
  7. NASA engineers stand by Mars Science Laboratory's aeroshell, a conical shell that will help protect the rover Curiosity, a robot the size of a car, from the searing temperatures of atmospheric entry when it lands on Mars, shown at the Jet Propulsion Laboratory in Pasadena, Calif., Monday, April 4. (Damian Dovarganes / AP) Back to slideshow navigation
  8. National Aeronautics and Space Administration NASA mega-rover, Curiosity's wheels and suspension are shown at the Mars Science Laboratory. Technicians, dressed in protective suits, has been working around the clock inside a clean room at the JPL assembling the craft, testing its science instruments, before shipping it off to Florida for launch later this year. (Damian Dovarganes / AP) Back to slideshow navigation
  9. There are 10 instruments on board Curiosity that can analyze samples to help determine if the Red Planet is or has ever been "favorable" to microbial life, according to NASA.

    See more close-up Curiosity pics by Joseph Linaschke at Boing Boing (Joseph Linaschke / photojoseph.com) Back to slideshow navigation
  10. National Aeronautics and Space Administration, NASA engineers work on Curiosity, a mega-rover at the Mars Science Laboratory. (Damian Dovarganes / AP) Back to slideshow navigation
  11. NASA Mars Curiosity's mega-rover's Mars Science Laboratory Mast Camera is seen at the Mars Science Laboratory, at the Jet Propulsion Laboratory in Pasadena, Calif. (Damian Dovarganes / AP) Back to slideshow navigation
  12. Curiosity's wheels are individually powered, and enable the mega-rover to turn 360 degrees while staying in place.

    See more close-up Curiosity pics by Joseph Linaschke at Boing Boing (Joseph Linaschke / photojoseph.com) Back to slideshow navigation
  13. NASA engineers work on Curiosity. Last month, the mega-rover was subjected to "near-vacuum pressure," according to NASA, with temperatures colder than minus-200 degrees Fahrenheit, in order to simulate the environmental stresses of the Martian surface. (Damian Dovarganes / AP) Back to slideshow navigation
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  1. Image:
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    Above: Slideshow (13) Mars Curiosity rover
  2. AURA / STSCI / NASA
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  3. Image:
    Y. Beletsky / ESO
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