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4 August 2012 Last updated at 22:13 GMT Share this page Email Print 2.2K Share Facebook Twitter Nasa's Curiosity rover edges closer to Mars By Jonathan Amos Science correspondent, BBC News, Pasadena Communications from the rover during descent will come to the Jet Propulsion Laboratory Continue reading the main story Related Stories Gale Crater: Geological 'sweet shop' Mars success depends on 'crazy' landing Rover on course for Mars landing

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Curiosity Has Landed on Mars

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Page 1: Mars missions

4 August 2012 Last updated at 22:13 GMT

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Nasa's Curiosity rover edges closer to Mars

By Jonathan Amos Science correspondent, BBC News, Pasadena

Communications from the rover during descent will come to the Jet Propulsion Laboratory Continue reading the main story

Related Stories

Gale Crater: Geological 'sweet shop' Mars success depends on 'crazy' landing Rover on course for Mars landing

Nasa's Curiosity rover is on course to land on Mars on Monday, where it will search for clues in the Red Planet's rocks and soil about whether it could once have supported life.

The robot's flight trajectory is so good engineers cancelled the latest course correction they had planned.

To land in the right place, it must hit a box at the top of the atmosphere that measures just 3km by 12km.

Page 2: Mars missions

Curiosity has spent eight months travelling from Earth to Mars.

The robot - -also known as the Mars Science Laboratory - has covered more than 560 million km.

"Our inbound trajectory is right down the pipe," said Arthur Amador, Curiosity's mission manager.

"The team is confident and thrilled to finally be arriving at Mars, and we're reminding ourselves to breathe every so often. We're ready to go."

The rover's power and communications systems are in excellent shape.

The one major task left for the mission team is to prime the back-up computer that will take command if the main unit fails during the entry, descent and landing (EDL) manoeuvres.

Continue reading the main story

Curiosity - Mars Science Laboratory

Mission goal is to determine whether Mars has ever had the conditions to support life Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon-rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

Gale Crater: Geological 'sweet shop' Discover more about the planets

Page 3: Mars missions

The robot was approaching Mars at about 13,000km/h on Saturday. By the time the spacecraft hits the top of Mars' atmosphere, about seven minutes before touch-down, gravity will have accelerated it to about 21,000km/h.

The vehicle is being aimed at Gale Crater, a deep depression just south of the planet's equator.

It is equipped with the most sophisticated science payload ever sent to another world.

Its mission, when it gets on the ground, is to characterise the geology in Gale and examine its rocks for signs that ancient environments on Mars could have supported microbial life.

Touch-down is expected at 05:31 GMT (06:31 BST) Monday 6 August; 22:31 PDT, Sunday 5 August.

It is a fully automated procedure. Nasa will be following the descent here at mission control at the Jet Propulsion Laboratory in Pasadena, California.

The rover will broadcast X-band and UHF signals on its way down to the surface.

These will be picked up by a mix of satellites at Mars and radio antennas on Earth.

The key communication route will be through the Odyssey orbiter. It alone will see the rover all the way to the ground and have the ability to relay UHF telemetry straight to Earth.

And mission team members remain hopeful that this data will also include some images that Curiosity plans to take of itself just minutes after touching the ground.

These would be low-resolution, wide-angle, black and white images of the rear wheels.

They may not be great to look at, but the pictures will give engineers important information about the exact nature of the terrain under the rover.

A lot has been made of the difficulty of getting to Mars, and historically there have been far more failures than successes (24 versus 15), but the Americans' recent record at the Red Planet is actually very good - six successful landings versus two failures.

Even so, Nasa continues to downplay expectations.

"If we're not successful, we're going to learn," said Doug McCuistion, the head of the US space agency's Mars programme.

"We've learned in the past, we've recovered from it. We'll pick ourselves up, we'll dust ourselves off, we'll do something again; this will not be the end.

"The human spirit gets driven by these kinds of challenges, and these are challenges that drive us to explore our surroundings and understand what's out there."

Page 4: Mars missions

Curiosity is heading for Gale Crater

The mission team warned reporters on Saturday not to jump to conclusions if there was no immediate confirmation of landing through Odyssey.

There were "credible reasons", engineers said, why the UHF signal to Odyssey could be lost during the descent, such as a failure on the satellite or a failure of the transmitter on the rover.

Continued efforts would be made to contact Curiosity in subsequent hours as satellites passed overhead and when Gale Crater came into view of radio antennas on Earth.

"There are situations that might come up where we will not get communications all the way through [to the surface], and it doesn't necessarily mean that something bad has happened; it just means we'll have to wait and hear from the vehicle later," explained Richard Cook, the deputy project manager.

This was emphasised by Allen Chen, the EDL operations lead. His is the voice from mission control that will be broadcast to the world during the descent. He will call out specific milestones on the way down. He told BBC News there would be no rush to judgement if the Odyssey link was interrupted or contained information that was "off nominal".

"I think we proceed under any situation as though the spacecraft is there, and there for us to recover - to find out what happened," he said.

"That's the most sensible thing to do. There are only a few instances I think where you could know pretty quickly that we'd be in trouble."

Step by step: How the Curiosity rover will land on Mars

Continue reading the main story

Page 5: Mars missions

As the rover, tucked inside its protective capsule, heads to Mars, it dumps the disc-shaped cruise stage that has shepherded it from Earth.

5 August 2012 Last updated at 21:42 GMT

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Nasa's Curiosity Mars rover set for high risk landingComments (143)

By Jonathan Amos Science correspondent, BBC News, Pasadena

Page 6: Mars missions

Nasa news conference after the Curiosity rover lands on Mars

Continue reading the main story

Related Stories

Rover edges closer to Red Planet Gale Crater: Geological 'sweet shop' awaits Mars rover Mars success depends on 'crazy' landing

One of the most daring space missions ever undertaken is nearing Mars.

Nasa will attempt to land its one-tonne Curiosity rover on the Red Planet to study the possibility that this world may once have hosted microbial life.

The vehicle is packed with scientific instruments, including a laser that can zap rocks to determine their make-up.

Curiosity is currently hurtling through space, close to the end of a 570 million km journey from Earth.

Engineers describe its trajectory as near-perfect and they have passed up the last two opportunities to make course corrections.

The rover, tucked inside a protective shell, is due to begin its descent to the surface at 05:24 GMT, Monday (06:24 BST; 22:24 PDT, Sun).

A signal confirming it has landed inside a deep depression known as Gale Crater is expected on Earth about seven minutes later, at 05:31 GMT.

But getting this audacious exploration project safely down will be a colossal challenge.

Page 7: Mars missions

Two-thirds of all missions sent to the Red Planet have failed, a good many lost on entry into the thin but unforgiving Martian atmosphere.

Continue reading the main story

Curiosity - Mars Science Laboratory

Mission goal is to determine whether Mars has ever had the conditions to support life Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

Discover more about the planets

And yet, the US space agency has high confidence that the high-risk descent strategy its engineers have devised will deliver an intact vehicle to the surface.

This strategy will use a sequence of fully automated manoeuvres to slow the fall from an initial 20,000km/h at the top of the atmosphere to less than 1m/s at the moment of touch-down.

The last stage in the sequence will see a hovering, rocket-powered crane lower the rover to the ground on nylon cords.

The manoeuvres have raised eyebrows because of their complexity, but the entry, descent and landing (EDL) team leader, Adam Steltzner, has emphasised the amount of "reasoned engineering" that has informed the design.

"I slept better last night than I have in years, and I think that's because it's done - whatever's going to happen is going to happen," he said.

Page 8: Mars missions

Nasa will be monitoring the drama from the Jet Propulsion Laboratory (JPL) in Pasadena, California.

It is here that mission control will receive the telemetry from Curiosity that has been bounced to Earth by the overflying satellite known as Odyssey.

Engineers can only watch and wait, however. The 250 million km between Mars and Earth right now means there is a 13-minute lag in communications.

The mission team knows that when it gets that first signal to say the rover has entered the planet's atmosphere, the vehicle will in reality have already landed or been destroyed some seven minutes previously.

Step by step: How the Curiosity rover will land on Mars

Continue reading the main story

As the rover, tucked inside its protective capsule, heads to Mars, it dumps the disc-shaped cruise stage that has shepherded it from Earth.

Continue reading the main story

1/8

"It will be really exciting; it always is. It's electrifying but it's tense," Doug McCuistion, the director of Nasa's Mars programme, told BBC News.

"Everybody white-knuckles through these 'seven minutes of terror', and it's named that for a good reason."

This is the fourth rover Nasa has attempted to put on the surface of Mars since 1997.

Page 9: Mars missions

But Curiosity - also known as the Mars Science laboratory (MSL) - dwarfs those previous efforts in size and sophistication.

The rover will sample rocks for signs that Mars was once favourable to life

Assuming the robot lands safely, it will spend 98 (Earth) weeks scouring Martian soils and rocks for any signs that current or past environments on the planet could have supported microbial life.

Gale Crater was chosen as the landing site because satellite pictures had spied sediments in the depression that looked as though they were laid down in the presence of abundant water.

"We see a lot of evidence that water was on Mars in the distant past and flowed across the surface for maybe millions of years," explained Ashwin Vasavada, the MSL-Curiosity deputy project scientist.

"This mission goes one step further by trying to understand whether the environments in which the water persisted were habitable. Were there basic ingredients for life there? We're going to understand what the conditions were like when life was most likely in Mars' ancient history."

The rover is equipped with 10 advanced instruments. It also has a plutonium battery and so should have ample power to keep rolling for more than a decade.

Page 10: Mars missions

Engineers define an ellipse in which they can confidently land Successive landings have become ever more accurate Viking's ellipse was 300km across - wider than Gale Crater itself Phoenix (100km by 20km) could not confidently fit in Gale Curiosity's landing system allows it to target the crater floor The rover's projected landing ellipse is just 7km by 20km

Page 11: Mars missions

(A) Curiosity will trundle around its landing site looking for interesting rock features to study. Its top speed is about 4cm/s

(B) This mission has 17 cameras. They will identify particular targets, and a laser will zap those rocks to probe their chemistry

(C) If the signal is significant, Curiosity will swing over instruments on its arm for close-up investigation. These include a microscope

(D) Samples drilled from rock, or scooped from the soil, can be delivered to two hi-tech analysis labs inside the rover body

(E) The results are sent to Earth through antennas on the rover deck. Return commands tell the rover where it should drive next

[email protected] and follow me on Twitter

Your comments (143)

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Page 12: Mars missions

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Page 13: Mars missions

Editors' Picks All Comments (143)

+5

Comment number 96.

Brian Kemp 6th August 2012 - 7:01

This is absolutely fantastic! Good luck to the mission and one day it'd be great to see Men and Women on Mars after science such as this.

-59

Comment number 47.

jesus bermudez 6th August 2012 - 5:56

What an absolute waste of money and time. There is no life anywhere else. God created the universe and earth is the only planet which has life. It was created for our convenience. This money should have been spent on helping children in need.

-10

Page 14: Mars missions

Comment number 45.

rioesk 6th August 2012 - 5:54

Absolutely beyond awesome. No one can doubt the dominance of the United States when it comes to unique thought and implementation. The rest of us have a mountain to climb to compare with this.

+20

Comment number 16.

Harrygh 6th August 2012 - 0:44

I am so glad this could be tried in my lifetime. Good luck NASA and Rover.

+12

Comment number 8.

MacFanatic 6th August 2012 - 0:19

Just finished watching the documentary on iPlayer and must say its well exciting.

Some people think that the landing is crazy but hey were human at the end of the day. We do crazy very well!

Good Luck Curiousity!

Page 15: Mars missions

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Article written by Jonathan Amos Science correspondent

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Gale Crater: Geological 'sweet shop' awaits Mars roverComments (238)

Grotzinger leads a team of several hundred mission scientists

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John Grotzinger is the project scientist on Nasa's latest multi-billion-dollar mission to Mars.

Page 20: Mars missions

He's going to become a familiar face in the coming months as he explains to TV audiences the importance of the discoveries that are made by the most sophisticated spacecraft ever sent to touch the surface of another world.

The Curiosity Rover - also called the Mars Science Laboratory (MSL) - is set to land on Monday (GMT) for a minimum two-year exploration of a deep hole on Mars' equator known as Gale Crater.

The depression was punched out by an asteroid or comet billions of years ago.

The lure for Grotzinger and his fellow scientists is the huge mound of rock rising 5km from the crater floor.

Mount Sharp, as they refer to it, looks from satellite pictures to be constructed from ancient sediments - some deposited when Mars still had abundant water at its surface.

From orbit, Mount Sharp looks like Australia. Gale is named after an Australian astronomer.

That makes it an exciting place to consider the possibility that those distant times may also once have supported microbial life.

And Curiosity, with its suite of 10 instruments, will test this habitability hypothesis.

Grotzinger is a geologist affiliated to the California Institute of Technology and he recently took the BBC Horizon programme to the mountains of the nearby Mojave Desert to illustrate the work the rover will be doing on Mars.

He climbed to a level and then pointed to the rock sediments on the far side of the valley.

Page 21: Mars missions

"What you see here is a stack of layers that tell us about the early environmental history of Earth, representing hundreds of millions of years," he told Horizon.

"They read like a book of Earth history and they tell us about different chapters in the evolution of early environments, and life.

"And the cool thing about going to Mount Sharp and Gale Crater is that there we'll have a different book about the early environmental history of Mars.

"It will tell us something equally interesting, and we just don't know what it is yet," he said.

Curiosity dwarfs all previous landing missions undertaken by the Americans.

At 900kg, it's a behemoth. It's nearly a hundred times more massive than the first robot rover Nasa sent to Mars in 1997.

Curiosity will trundle around the foothills of Mount Sharp much like a human field geologist might walk through Mojave's valleys. Except the rover has more than a hammer in its rucksack.

It has hi-res cameras to look for features of interest. If a particular boulder catches the eye, Curiosity can zap it with an infrared laser and examine the resulting surface spark to query the rock's elemental composition.

If that signature intrigues, the rover will use its long arm to swing over a microscope and an X-ray spectrometer to take a closer look.

Page 22: Mars missions

Still interested? Curiosity can drill into the boulder and deliver a powdered sample to two high-spec analytical boxes inside the rover belly.

These will lay bare the rock's precise make-up, and the conditions under which it formed.

"We're not just scratching and sniffing and taking pictures - we're boring into rock, getting that powder and analysing it in these laboratories," deputy project scientist, Ashwin Vasavada, told the BBC.

"These are really university laboratories that would normally fill up a room but which have been shrunk down - miniaturised - and made safe for the space environment, and then flown on this rover to Mars."

The intention on Monday is to put MSL-Curiosity down on the flat plain of the crater bottom.

The vehicle will then drive up to the base of Mount Sharp.

In front of it, the rover should find clay minerals (phyllosilicates) that will give a fresh insight into the wet, early era of the Red Planet known as the Noachian. Clays only form when rock spends a lot of time in contact with water.

Above the clays, a little further up the mountain, the rover should find sulphate salts, which relate to the Hesperian Era - a time when Mars was still wet but beginning to dry out.

"Going to Gale will give us the opportunity to study a key transition in the climate of Mars - from the Noachian to the Hesperian," said Sanjeev Gupta, an Imperial College London scientist on the mission.

"The rocks we believe preserve that with real fidelity, and the volume of data we get from Curiosity will be just extraordinary."

A roving laboratory for Mars

General equipment: MSL equipped with tools to remove dust from rock surfaces, drill into rocks, and to scoop up, sort and sieve samples

Page 23: Mars missions

Mast Camera: will image rover's surroundings in hi-res stereo and colour; wide angle and telephoto; can make hi-def video movies

ChemCam: pulses infrared laser at rocks up to 7m away; carries a spectrometer to identify types of atoms excited in laser beam

Sample Analysis at Mars: inside body; will analyse rock, soil and atmospheric samples; would make all-important organics identification

Chemistry and Mineralogy: another interior instrument. Analyses powdered samples to quantify minerals present in rocks and soils

Mars Hand Lens Imager: mounted on arm toolkit; will take extreme close-ups of rocks, soil and any ice; details smaller than hair's width

Alpha Particle X-ray Spectrometer: Canadian arm contribution; will determine relative abundances of different elements in samples

Radiation Assessment Detector: will characterize radiation environment at surface; key information for future human exploration

Mars Descent Imager: operates during landing sequence; hi-def movie will tell controllers exactly where rover touched down

Rover Environmental Monitoring Station: Spanish weather station; measures pressure, temperature, humidity, winds, and UV levels

Dynamic Albedo of Neutrons: looks for sub-surface hydrogen; could indicate water buried in form of ice or bound in minerals

The rover is not a life-detection mission; it does not possess the capability to identify any bugs in the soil or huddled under rocks (not that anyone really expects to find microbes in the cold, dry, and irradiated conditions that persist at the surface of Mars today).

But what Curiosity can do is characterise any organic (carbon-rich) chemistry that may be present.

All life as we know it on Earth trades off a source of complex carbon molecules, such as amino acids - just as it needs water and energy.

Previous missions, notably the Viking landers in the 1970s, have hinted at the presence of organics on Mars. But if Curiosity could make the definitive identification of organics in Gale Crater, it would be a eureka moment and go a long way towards demonstrating that the Red Planet did indeed have habitable environments in its ancient past.

It's a big ask, though. Even in Earth rocks where we know sediments have been laid down in proximity to biology, we still frequently find no organic traces. The evidence doesn't preserve well.

And, of course, there are plenty of non-biological processes that will produce organics, so it wouldn't be an "A equals B" situation even if Curiosity were to make the identification.

Nonetheless, some members of the science team still dream of finding tantalising chemical markers in Gale's rocks.

Page 24: Mars missions

Dawn Sumner, from the University of California at Davis, is one of them.

"Under very specific circumstances - if life made a lot of organic molecules and they are preserved and they haven't reacted with the rocks in Gale Crater, we may be able to tell that they were created by life. It's a remote possibility, but it's something I at least hope we can find," she said.

"I am confident we will learn amazing new things. Some of them will be answers to questions we already have, but most of what we learn will be surprises to us.

"We've only been on the ground on Mars in six places, and it's a huge planet.

"Gale Crater and Mount Sharp are unlike anything we've been to before. That guarantees we will learn exciting new things from Curiosity."

Horizon: Mission to Mars was broadcast on BBC Two Monday 30 July. Watch online via iPlayer (UK only) or browse more Horizon clips at the above link.

Page 25: Mars missions

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Article written by Jonathan Amos Jonathan Amos Science correspondent

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A Mars enginee3 August 2012 Last updated at 07:39 GMT

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Nasa's Curiosity rover on course for Mars landing

By Jonathan Amos Science correspondent, BBC News, Pasadena

Adam Steltzner expects the new landing system to perform as designed Continue reading the main story

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Page 27: Mars missions

Mars 'has life's building blocks'

Nasa says the big robot rover it is sending to Mars looks in excellent shape for its Monday (GMT) landing.

The vehicle, known as Curiosity, was launched from Earth in November last year and is now nearing the end of a 570-million-km journey across space.

To reach its intended touch-down zone in a deep equatorial crater, the machine must enter the atmosphere at a very precise point on the sky.

Engineers told reporters on Thursday that they were close to a bulls-eye.

A slight course correction - the fourth since launch - was instigated last Saturday, and the latest analysis indicates Curiosity will be no more than a kilometre from going straight down its planned "keyhole".

The team's confidence is such that it may pass up the opportunity to make a further correction on Friday.

"We are about to land a small compact car on the surface with a trunk-load of instruments. This is a pretty amazing feat getting ready to happen. It's exciting, it's daring - but it's fantastic," said Doug McCuistion, the head of Nasa's Mars programme.

Curiosity - also known as the Mars Science laboratory (MSL) - is the biggest, most sophisticated Mars rover yet.

It will study the rocks inside Gale Crater, one of the deepest holes on Mars, for signs that the planet may once have supported microbial life.

The $2.5bn mission is due to touch down at 05:31 GMT (06:31 BST) Monday 6 August; 22:31 PDT, Sunday 5 August.

It will be a totally automated landing.

Continue reading the main story

Curiosity - Mars Science Laboratory

Page 28: Mars missions

Mission goal is to determine whether Mars has ever had the conditions to support life Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon-rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

MSL-Curiosity: Biggest Mars mission yet Discover more about the planets

Engineers here at the Jet Propulsion Laboratory (JPL) in Pasadena, California, can only watch and wait.

The vast distance between Mars and Earth means there is a 13-minute lag in communications, making real-time intervention impossible.

Nasa has had to abandon the bouncing airbag approach to making soft landings.

This technique was used to great effect on the three previous rovers - Sojourner, Spirit and Opportunity.

But at nearly a tonne, Curiosity is simply too heavy to be supported by inflated cushions.

Instead, the mission team has devised a rocket-powered, hovering crane to lower the rover to the surface in the final moments of its descent.

Adam Steltzner has led this work for Nasa. He said: "It looks a little bit crazy. I promise you it is the least crazy of the methods you could use to land a rover the size of Curiosity on Mars, and we've become quite fond of it - and we're fairly confident that Sunday night will be a good night for us."

Page 29: Mars missions

The team is also keeping a sharp eye on the Martian weather and any atmospheric conditions that might interfere with the descent manoeuvres.

It is the equivalent of August also on Mars right now, meaning Gale Crater at its position just inside the southern hemisphere is coming out of winter and moving towards spring.

It is the time of year when winds can kick up huge clouds of dust, and a big storm was spotted this week about 1,000km from the landing site. But Nasa expects this storm to dissipate long before landing day.

Science editor David Shukman takes a look at a full-scale replica of Curiosity

The first black-and-white images of the surface taken by Curiosity should be returned to Earth in the first hours after touch down, but the mission team do not intend to rush into exploration.

For one thing, the rover has a plutonium battery that should give it far greater longevity than the solar-panelled power systems on previous vehicles.

"This is a very complicated beast," said Pete Theisinger, Curiosity's project manager.

"The speech I made to the team is to recognize that on Sunday night at [22:32 PDT], we will have a priceless asset that we have placed on the surface of another planet that could last a long time if we operate it correctly, and so we will be as cautious as hell about what we do with it."

Step by step: How the Curiosity rover will land on Mars

Continue reading the main story

Page 30: Mars missions

As the rover, tucked inside its protective capsule, heads to Mars, it dumps the disc-shaped cruise stage that has shepherded it from Earth. Continue reading the main story 1/8

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Mars data to be analysed by Leicester scientist

Project architect Adam Steltzner explains how the Mars Curiosity rover is expected to land on Mars (animation is courtesy of Nasa)

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Mars success depends on 'crazy' landing Nasa may not hear rover' s landing Mars 'has life's building blocks'

A University of Leicester scientist says it is going to be "very exciting" to analyse some of the first data from Nasa's latest Mars mission.

The $2.5bn mission's Mars Curiosity rover is expected to land on Monday.

Dr John Bridges said he would be leading a team from Leicester, the Open University and the French National Centre for Scientific Research.

Page 33: Mars missions

He said: "Never before has such a powerful set of instruments and such a capable rover been sent."

Geological history

He added: "The overall aim of the mission is to determine if Mars has ever been habitable for microbial life. It's incredibly exciting.

"For the first time we can look at a large amount of material which was deposited from water.

"Were there large lakes which lasted for millions of years or just small amounts of water which lasted a short period of time? These are just some of the fundamental things we can learn about Mars.

"The mobile Mars Science Laboratory (Curiosity) is expected to revolutionise our understanding of the geological history of the planet."

The rover was launched in November and is scheduled to land on Monday morning beside a mountain within Gale Crater called Mt Sharp.

Nasa described Curiosity rover as "car-sized" and weighing one ton (900kg).

It is fitted with a robotic arm, high-resolution cameras and a laser, and is designed to be a walking laboratory.

Martian meteorites

Dr Bridges said he would be at the Jet Propulsion Laboratory in California to witness the landing and to start work on the research.

The University of Leicester said Dr Bridges was one of two UK scientists who would conduct and analyse experiments during the two-year mission.

Dr Bridges said: "For a number of years now I've studied Mars using orbiting spacecraft data, also from looking at Martian meteorites in detail. This is the next logical step.

"It's the most powerful rover ever sent to Mars - with more instruments... It can go even further and perhaps even last longer."

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Nasa may miss Curiosity Mars rover's landing signal

By Jonathan Amos Science correspondent, BBC News

Mars programme director Doug McCuistion: "Is it crazy? Well, not so much" (Courtesy of Nasa)

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Page 40: Mars missions

Mars rover narrows landing zone Mars 'has life's building blocks' Europe still keen on Mars missions

Nasa might not be able to follow the progress of its big Mars rover all the way to the surface when it attempts to land on the planet on 6 August (GMT).

The Curiosity vehicle is aiming for a deep depression known as Gale Crater.

The US space agency will be tracking the descent with satellites, but its prime craft for the task may not now be in the correct place in the sky.

Engineers have been tackling a fault on the Odyssey satellite and it is no longer in the best observational orbit.

Unless it can be moved back in the next three weeks, Nasa will lose signal to the rover just as it is about to touch down.

This will not affect the outcome of the landing because Curiosity's descent manoeuvres are all performed autonomously, but it will give rise to some high anxiety as everyone awaits confirmation that the $2.5bn mission is safely on the surface.

"Odyssey right now looks like it may not be in the same spot that we'd expected it to be," said Doug McCuistion, the director of Nasa's Mars exploration programme.

"There may be some changes in real-time communication. We'll let you know as this develops; we still have more work to do. But keep in mind, there is no risk to [Curiosity] landing. It does not have an effect on that."

High risk

Continue reading the main story

Curiosity - Mars Science Laboratory

Page 41: Mars missions

Mission goal is to determine whether Mars has ever had the conditions to support life Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

MSL - the biggest and best Mars mission yet

The 900kg robot's entry, descent and landing (EDL) will be the most dangerous aspect of the entire mission.

The rover, in its protective capsule, will hit the top of the Martian atmosphere at 20,000km/h (13,000mph) and attempt to slow to just one metre per second to execute a soft touchdown.

This rapid deceleration must be achieved in about seven minutes or Curiosity will smash into the ground.

Engineers have built a complex EDL system that includes a supersonic parachute and a rocket-powered crane. Everything must work on cue and in sequence.

It was expected that the Odyssey orbiter would track the whole descent, relaying UHF signals from the rover right up to the landing and for a few minutes beyond.

But the spacecraft recently experienced a reaction wheel failure.

This device is used to manage the satellite's orientation and momentum in space, and because engineers have been investigating the issue they have not as yet moved Odyssey back into the correct orbit to see the full landing sequence - and they may not do so.

This would leave Nasa blind for the final, nail-biting two minutes of the landing operation.

Transmission delay

Antennas on Earth will be following the descent but they will lose contact as Curiosity hurtles into Gale, one of the deepest holes on Mars. The steep crater walls will block all direct radio transmission to the home planet not long after the supersonic parachute is opened.

The Europeans' Mars Express satellite will be watching, but its position in the sky means it will have a similar problem to Earth antennas.

Nasa's other satellite - the Mars Reconnaissance Orbiter (MRO) - will see the whole landing sequence but it only has a "store and forward" capability, which puts a significant delay in its data return time to Earth.

Page 42: Mars missions

MRO's information will not be available to engineers on Earth for three to four hours after the rover has placed itself on the surface.

As things stand, Nasa could be waiting on Odyssey to make a late pass of the landing site, perhaps five to 10 minutes after the rover's planned touchdown.

This is projected to be 22:31 PDT 5 August; 01:31 EDT, 05:31 GMT, 06:31 BST 6 August.

This is "Earth receive" time - the time a signal sent from Mars is received on Earth. The 250 million km between Mars and Earth on 5/6 August mean a radio transmission takes just under 14 minutes to pass between the two planets.

"If Odyssey is not able to be moved and it still remains late, that means it will fly over [Curiosity] after the spacecraft has landed, and we presumably will [then] be able to see transmissions from it. It would be somewhere between 22:35 and 22:40 PDT," explained Pete Theisinger, the rover project manager at Nasa's Jet Propulsion Laboratory in Pasadena, California.

Curiosity - also known as the Mars Science laboratory (MSL) - is the most sophisticated space vehicle ever built to touch the surface of another world.

Assuming the robot lands safely, it will spend 98 (Earth) weeks scouring Martian soils and rocks for any signs that current or past environments on the planet could have supported microbial life.

Gale Crater was chosen as the landing site because satellite pictures had spied sediments in the depression which looked as though they were laid down in the presence of abundant water.

MSL-Curiosity is equipped with 10 advanced instruments. It also has a plutonium battery and so should have ample power to keep rolling for more than a decade.

It is likely the mechanisms on the rover will wear out long before its energy supply.

Page 43: Mars missions

MSL-Curiosity will try to land at the base of Gale Crater and then climb the mountain at its centre

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Page 50: Mars missions

Grotzinger leads a team of several hundred mission scientists

More from Jonathan

Space - the new rock and roll Mars success depends on 'crazy' landing Ahoy! Your ship is being tracked from orbit Satellites have an electric future

John Grotzinger is the project scientist on Nasa's latest multi-billion-dollar mission to Mars.

He's going to become a familiar face in the coming months as he explains to TV audiences the importance of the discoveries that are made by the most sophisticated spacecraft ever sent to touch the surface of another world.

The Curiosity Rover - also called the Mars Science Laboratory (MSL) - is set to land on Monday (GMT) for a minimum two-year exploration of a deep hole on Mars' equator known as Gale Crater.

The depression was punched out by an asteroid or comet billions of years ago.

The lure for Grotzinger and his fellow scientists is the huge mound of rock rising 5km from the crater floor.

Mount Sharp, as they refer to it, looks from satellite pictures to be constructed from ancient sediments - some deposited when Mars still had abundant water at its surface.

From orbit, Mount Sharp looks like Australia. Gale is named after an Australian astronomer.

Page 51: Mars missions

That makes it an exciting place to consider the possibility that those distant times may also once have supported microbial life.

And Curiosity, with its suite of 10 instruments, will test this habitability hypothesis.

Grotzinger is a geologist affiliated to the California Institute of Technology and he recently took the BBC Horizon programme to the mountains of the nearby Mojave Desert to illustrate the work the rover will be doing on Mars.

He climbed to a level and then pointed to the rock sediments on the far side of the valley.

"What you see here is a stack of layers that tell us about the early environmental history of Earth, representing hundreds of millions of years," he told Horizon.

"They read like a book of Earth history and they tell us about different chapters in the evolution of early environments, and life.

"And the cool thing about going to Mount Sharp and Gale Crater is that there we'll have a different book about the early environmental history of Mars.

"It will tell us something equally interesting, and we just don't know what it is yet," he said.

Curiosity dwarfs all previous landing missions undertaken by the Americans.

At 900kg, it's a behemoth. It's nearly a hundred times more massive than the first robot rover Nasa sent to Mars in 1997.

Curiosity will trundle around the foothills of Mount Sharp much like a human field geologist might walk through Mojave's valleys. Except the rover has more than a hammer in its rucksack.

It has hi-res cameras to look for features of interest. If a particular boulder catches the eye, Curiosity can zap it with an infrared laser and examine the resulting surface spark to query the rock's elemental composition.

If that signature intrigues, the rover will use its long arm to swing over a microscope and an X-ray spectrometer to take a closer look.

Page 52: Mars missions

Still interested? Curiosity can drill into the boulder and deliver a powdered sample to two high-spec analytical boxes inside the rover belly.

These will lay bare the rock's precise make-up, and the conditions under which it formed.

"We're not just scratching and sniffing and taking pictures - we're boring into rock, getting that powder and analysing it in these laboratories," deputy project scientist, Ashwin Vasavada, told the BBC.

"These are really university laboratories that would normally fill up a room but which have been shrunk down - miniaturised - and made safe for the space environment, and then flown on this rover to Mars."

The intention on Monday is to put MSL-Curiosity down on the flat plain of the crater bottom.

The vehicle will then drive up to the base of Mount Sharp.

In front of it, the rover should find clay minerals (phyllosilicates) that will give a fresh insight into the wet, early era of the Red Planet known as the Noachian. Clays only form when rock spends a lot of time in contact with water.

Above the clays, a little further up the mountain, the rover should find sulphate salts, which relate to the Hesperian Era - a time when Mars was still wet but beginning to dry out.

Page 53: Mars missions

"Going to Gale will give us the opportunity to study a key transition in the climate of Mars - from the Noachian to the Hesperian," said Sanjeev Gupta, an Imperial College London scientist on the mission.

"The rocks we believe preserve that with real fidelity, and the volume of data we get from Curiosity will be just extraordinary."

A roving laboratory for Mars

General equipment: MSL equipped with tools to remove dust from rock surfaces, drill into rocks, and to scoop up, sort and sieve samples

Mast Camera: will image rover's surroundings in hi-res stereo and colour; wide angle and telephoto; can make hi-def video movies

ChemCam: pulses infrared laser at rocks up to 7m away; carries a spectrometer to identify types of atoms excited in laser beam

Sample Analysis at Mars: inside body; will analyse rock, soil and atmospheric samples; would make all-important organics identification

Chemistry and Mineralogy: another interior instrument. Analyses powdered samples to quantify minerals present in rocks and soils

Mars Hand Lens Imager: mounted on arm toolkit; will take extreme close-ups of rocks, soil and any ice; details smaller than hair's width

Alpha Particle X-ray Spectrometer: Canadian arm contribution; will determine relative abundances of different elements in samples

Radiation Assessment Detector: will characterize radiation environment at surface; key information for future human exploration

Mars Descent Imager: operates during landing sequence; hi-def movie will tell controllers exactly where rover touched down

Rover Environmental Monitoring Station: Spanish weather station; measures pressure, temperature, humidity, winds, and UV levels

Dynamic Albedo of Neutrons: looks for sub-surface hydrogen; could indicate water buried in form of ice or bound in minerals

The rover is not a life-detection mission; it does not possess the capability to identify any bugs in the soil or huddled under rocks (not that anyone really expects to find microbes in the cold, dry, and irradiated conditions that persist at the surface of Mars today).

Page 54: Mars missions

But what Curiosity can do is characterise any organic (carbon-rich) chemistry that may be present.

All life as we know it on Earth trades off a source of complex carbon molecules, such as amino acids - just as it needs water and energy.

Previous missions, notably the Viking landers in the 1970s, have hinted at the presence of organics on Mars. But if Curiosity could make the definitive identification of organics in Gale Crater, it would be a eureka moment and go a long way towards demonstrating that the Red Planet did indeed have habitable environments in its ancient past.

It's a big ask, though. Even in Earth rocks where we know sediments have been laid down in proximity to biology, we still frequently find no organic traces. The evidence doesn't preserve well.

And, of course, there are plenty of non-biological processes that will produce organics, so it wouldn't be an "A equals B" situation even if Curiosity were to make the identification.

Nonetheless, some members of the science team still dream of finding tantalising chemical markers in Gale's rocks.

Dawn Sumner, from the University of California at Davis, is one of them.

"Under very specific circumstances - if life made a lot of organic molecules and they are preserved and they haven't reacted with the rocks in Gale Crater, we may be able to tell that they were created by life. It's a remote possibility, but it's something I at least hope we can find," she said.

"I am confident we will learn amazing new things. Some of them will be answers to questions we already have, but most of what we learn will be surprises to us.

"We've only been on the ground on Mars in six places, and it's a huge planet.

"Gale Crater and Mount Sharp are unlike anything we've been to before. That guarantees we will learn exciting new things from Curiosity."

Horizon: Mission to Mars was broadcast on BBC Two Monday 30 July. Watch online via iPlayer (UK only) or browse more Horizon clips at the above link.

Page 55: Mars missions

Your comments (238)

Article written by Jonathan Amos Jonathan Amos Science correspondent

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Page 56: Mars missions

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Page 57: Mars missions

Curiosity - Mars Science Laboratory John Grotzinger at Californa Institute of Technology Sanjeev Gupta at Imperial College London Dawn Sumner at University of California Davis

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o Order by:o Latest First o Highest Rated o Lowest Rated

0

Comment number 238.

ColadadelCid 5th August 2012 - 23:27

It would have made for an interesting biological experiment if the craft carried along the most resistant life from Earth a cockroach and had it released on the Martian surface. If the thing lived and scampered away unharmed imagine what that would mean. But by the time Earthlings actually set foot on Mars they likely might need to bring along some roach spray and plenty of it.

+1

Page 58: Mars missions

Comment number 237.

Cnut the not so Great 5th August 2012 - 23:05

231. SBTC

What?

John 3:16 16 "For God so loved the world that he gave his one and only Son, that whoever believes in him shall not perish but have eternal life".

Have you actually read Genesis. It's seven days.

+3

Comment number 236.

disgustedofdymchurch 5th August 2012 - 22:52

Why are they sending a Rover? Wouldn't a Mercedes be more reliable?

+1

Comment number 235.

Eggleman 5th August 2012 - 22:42

It is amazing what advances in science have done since we reached the Moon in 1969. I seriously doubt many people would have predicted this level of technology to reach, let alone see Mars in such detail to come so quickly.

Page 59: Mars missions

0

Comment number 234.

MickClayton 5th August 2012 - 22:34

http://www.esa.int/esaCP/SEM5O1TX55H_index_0.html

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Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

MSL - the biggest and best Mars mission yet

Continue reading the main story

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Giant Nasa rover launches to Mars MSL - the biggest and best Mars mission Russia asked to join Mars project

Nasa's Mars Science Laboratory (MSL), currently en route to the Red Planet, has had its course corrected to put it on target for an August landing.

The 900kg rover is flying through space at 4.5km/s following its launch on an Atlas rocket from Florida in November.

Wednesday's manoeuvre ensures MSL is properly lined up on Mars, leaving the Atlas, which is following behind, to miss the planet.

The roving lab is aiming to land inside a 150km-wide bowl called Gale Crater.

It will use its sophisticated instruments to assess whether the location has ever had the conditions capable of supporting life.

The course correction involved firing the eight thrusters on MSL's cruise stage in a planned sequence that lasted almost three hours.

Page 65: Mars missions

The cruise stage is the support vehicle that is carrying the rover to the Red Planet. The laboratory itself is tucked away inside a protective cone-shaped capsule.

All of this equipment will have to be jettisoned for MSL to make its landing, expected to take place on the morning of 6 August (GMT).

The thruster firings initiated what is expected to be the biggest change in course for the probe during its nine-month, 570-million-km-long journey to the Red Planet.

Further manoeuvres, however, will still be needed to precisely point MSL at its destination, with a last correction being made perhaps just before the mission's entry into the Martian atmosphere.

Changing course like this mid-way through a cruise is standard practice.

Planetary protection protocols drawn up by scientists demand that space missions limit the amount of earthly contamination they take to other worlds, and while MSL was prepared to exacting standards of cleanliness the same could not be said of its Atlas launcher.

The rover is tucked inside a protective shell attached to the cruise stage

Wednesday's manoeuvre guarantees the upper portion of this vehicle, which has been trailing behind the rover after giving it a final push, cannot now impact Mars.

MSL, also known as Curiosity, is the biggest, most capable spacecraft ever sent to touch the surface of another planet.

Getting down on to planet will not be easy; most efforts have failed. But the Americans have a good recent record and they believe a new rocket-powered descent system will be able to place the rover in one of the most exciting locations on the planet.

Curiosity will investigate a central mountain in Gale Crater that is some 5km high.

It will climb the mountain, and, as it does so, study rocks that were laid down billions of years ago in the presence of water.

Page 66: Mars missions

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MSL-Curiosity: Biggest Mars mission yetComments (101)

An elevation model of Gale crater made using data from Europe's Mars Express orbiter. MSL lands on the lower, nearside of the central peak, which rises more than 5km above the crater floor

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Space - the new rock and roll Gale Crater: Geological 'sweet shop' awaits Mars rover Mars success depends on 'crazy' landing Ahoy! Your ship is being tracked from orbit

Page 73: Mars missions

The delivery of Nasa's Mars Science Laboratory rover, known as Curiosity, to the surface of the Red Planet is a mouth-watering prospect.

The $2.5bn robot is by far the most capable machine ever built to touch another world. Consider just the history of wheeled vehicles on Mars.

In 1997, the US space agency put the toy-sized Pathfinder-Sojourner rover on the surface. It weighed just over 10kg.

This was followed seven years later by the 170kg, twin rovers Opportunity and Spirit. Their instrument complement combined (5kg + 5kg) was equal to the total mass of Sojourner.

Now, we await Curiosity - a 900kg behemoth due for launch this Saturday. Its biggest instrument alone is nearly four times the mass of that teeny robot back in '97.

"It's the size of a Mini Cooper with the wheelbase of a Humvee," is how project scientist John Grotzinger describes the rover.

So, we're expecting great things from Curiosity. A big machine to address some big questions.

A roving laboratory for Mars

General equipment: MSL equipped with tools to remove dust from rock surfaces, drill into rocks, and to scoop up, sort and sieve samples

Mast Camera: will image rover's surroundings in high-res stereo and colour; wide angle and telephoto; can make high-def video movies

ChemCam: pulses infrared laser at rocks up to 7m away; carries a spectrometer to identify types of atoms excited in laser beam

Sample Analysis at Mars: inside body; will analyse rock, soil and atmospheric samples; would make all-important organics identification

Chemistry and Mineralogy: another interior instrument. Analyses powdered samples to quantify minerals present in rocks and soils

Mars Hand Lens Imager: mounted on arm toolkit; will take extreme close-ups of rocks, soil and any ice; details smaller than hair's width

Page 74: Mars missions

Alpha Particle X-ray Spectrometer: Canadian arm contribution; will determine the relative abundances of different elements in samples

Radiation Assessment Detector: will characterize radiation environment at surface; key information for future human exploration

Mars Descent Imager: operates during landing sequence; high-def movie will tell controllers exactly where rover touched down

Rover Environmental Monitoring Station: Spanish weather station; measures pressure, temperature, humidity, winds, and UV levels

Dynamic Albedo of Neutrons: looks for sub-surface hydrogen; could indicate water buried in form of ice or bound in minerals

Mike Meyer is the lead scientist on Nasa's Mars exploration effort: "MSL plays a central role in a series of missions of looking at Mars and determining whether or not it has the potential for life. It is capable of going to a region and exploring that region, and telling us whether or not it has been, or may even still be today, a habitable place - something that could support microbial life."

Engineers have designed a new entry, descent and landing system they say can put the roving laboratory down on a button.

OK, so this button is 20km wide but the accuracy being promised is an order or magnitude better than previous technology, and it has allowed researchers essentially to go where their heart desired.

They've chosen a near-equatorial depression called Gale Crater. It's one of the deepest holes on Mars - deeper even than Valles Marineris, that great scar that tears across one quarter of the planet.

Scientists believe Gale will be the geological equivalent of a sweet shop - so enticing and varied are the delights it appears to offer.

"This crater is about 100 miles across and it has a central mound that's about three miles high," explains Grotzinger.

"The important thing is that the central mound is a series of layers that cut across the history of Mars covering over a billion years. So, not only do we have high-resolution images showing we have layers in this mound, but also because of the spectrometers we have in orbit flying around Mars, we can see minerals that have obviously interacted with water."

The intention is to put MSL-Curiosity down on the flat plain of the crater bottom. The vehicle will then drive up to the base of the peak.

In front of it, the rover should find abundant quantities of clay minerals (phyllosilicates) that will give a fresh insight into the very wet, early epoch of the Red Planet. Clays only form when rock spends a lot of time in contact with water.

Page 75: Mars missions

Above the clays, a little further up the mountain, the rover should find sulphate salts, which relate to a time when Mars was still wet but beginning to dry out. Go higher still, and MSL will find mostly the "duststones" from the cold, desiccated world that Mars has now become.

But even before all this, MSL will land on what looks from orbit to be alluvial fan - a spread of sediment dumped by a stream of water flowing down the crater wall.

If the science on this fan proves productive, it could be many months before MSL gets to the base of the mountain.

The rover has time, though. Equipped with a plutonium battery, it has the power to keep rolling for more than 10 years - time enough to scout the crater floor and climb to the summit of the mountain.

"We are not a life detection mission," stresses Grotzinger.

Page 76: Mars missions

"I know that many of you would like to know when we're going to get on with doing that. But the first and important step towards that is to try to understand where the good stuff may be. And in this case a habitable environment needs to be described.

"This is an environment that contains a source of water, which is essential for all life as we understand it on Earth; we need a source of energy, which is important for organisms to do metabolism; and we also need a source of carbon, which is essential to build the molecular structures that an organism is composed of."

You may be wondering why these sorts of missions don't look directly for life, and the reason is pretty straightforward. Those types of observations are actually quite difficult to make, and the truth is we don't really expect to find microbial communities thriving at the surface of present-day Mars. The conditions are simply too harsh.

Little one: the Sojourner rover now looks like a toy compared to MSL

But go back further in time, and the situation may have been very different. It seems pretty clear now that when life was getting going on Earth more than three billion years ago, conditions on Mars were also warm and wet.

But the traces of those ancient lifeforms on our own planet are now very hard to read, and often require instruments that would fill a room. Not even a machine the scale of Curiosity could carry them.

So, MSL will restrict itself to the habitability question, and it will do this using a combination of 10 instruments.

The rover has instruments on a mast that can survey the surroundings and assess potential sampling targets from a distance. These include cameras and an infrared laser system that can excite the surface of a rock to betray some of its chemistry.

It's also got instruments on the end of a 2.1m-long arm for close-up inspections. These include a drill that can pull samples from up to 5cm inside a rock.

And MSL has two big lab kits inside its body to do detailed analysis of all the samples it takes from rocks, soils and even the atmosphere.

Page 77: Mars missions

One eureka moment for this mission would be if it could definitively identify a range of complex organic (carbon-rich) molecules, such as amino acids.

Previous missions, notably the Viking landers in the 1970s, have hinted at the presence of organics. It would be good if Curiosity could bury all doubts. But it will be tough.

Even in Earth rocks where we know sediments have been laid down in proximity to biology, we still frequently find no organic traces. The evidence doesn't preserve well.

So, getting a positive result on Mars would be a triumph for the MSL team. Although, I guess one should make it clear - just finding complex organics does not indicate the presence of life because we know these carbon molecules can have non-biological origins, in meteorites, for example.

Nonetheless, it would help to build a case that at least the necessary preconditions have existed for life on the Red Planet at some point.

We can then think about how we might go about testing for life itself, although I think the only real solution will be to return rocks for analysis in those room-sized instruments here on Earth.

Your comments (101)

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Comment number 101.

Shift That Paradigm 26th November 2011 - 20:16

I'm very relieved that the launch went well.

Between now and next August when Curiosity lands it's probably a good idea to fix our money system otherwise a gaping black hole awaits us and all our endeavours might all be for nothing.

Usury/interest must go and we need a resource-based economy and not a money-based one.

We really do need a paradigm shift and soon. We can do it.

0

Page 79: Mars missions

Comment number 100.

Jones_the_Steve 26th November 2011 - 18:34

Robert Lucien and Powermeerkat,

I wasn't belittling the Russians. My point was that many people complain about the cost of space science but don't realise the benefits that having a huge scientific and industrial base working on extremely difficult tasks brings. It isn't just Teflon and velcro. Glad the launch went well.

+1

Comment number 99.

Robert Lucien 26th November 2011 - 17:51

#94 powermeerkat, 56.Jones_the_Steve, Shift That Paradigm.

Curiosity just lifted off on an Atlas 5 and the Atlas 5 is powered by Russian technology, specifically Buran technology, specifically the RD-180 rocket. A good thing since its about the most powerful and reliable rocket in current use (both Atlas and the RD-180). - http://en.wikipedia.org/wiki/RD-180

-3

Comment number 98.

BobBall 26th November 2011 - 13:12

Page 80: Mars missions

21.  Tom Ray 24TH NOVEMBER 2011 - 19:44Where can I get one of the batteries that will drive the Curiosity lander artound for 10 years?

Personally, it will be fingers crossed that the rocket launch goes well. Otherwise the USA may suffer serious radiation contamination from the plutonium batteries on Curiosity.

0

Comment number 97.

Whizz1967 26th November 2011 - 10:58

Knights of Cydonia,now that is art

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Space - the new rock and rollComments (67)

The reaction from the Nasa control room as the robot landed

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"I hope to do something as great in my life in the future, but if I don't - this will have been enough."

Page 87: Mars missions

Adam Steltzner has had a little time to reflect on the historic touchdown of the Curiosity rover on Mars, although he confesses the adrenaline of the past few days means he hasn't himself yet landed back on Earth.

The man who led the Nasa team that devised the "crazy" system to get Curiosity on the ground is still buzzing.

"It is a triumph. It is a triumph of ingenuity and engineering, and it's something the team should be very, very proud of," he says.

For a few days, Stelzner became the face of this mission.

His engaging personality and presentation, allied to his rock and roll looks, meant he was a natural magnet to the news cameras.

In those remarkable pictures from the Jet Propulsion Laboratory control room, he was the one pacing around and pointing.

Steltzner and the Curiosity landing system now go their separate ways

And all eyes were on him - the master of ceremonies.

The worst part, he says, was waiting for the rover in its descent capsule to touch the top of the atmosphere.

Page 88: Mars missions

About nine minutes out, the capsule detached from the spacecraft that had shepherded it from Earth.

There was then a hiatus before the real action began. "Those nine minutes were horrid."

If you haven't watched the moment of touchdown, you can see it in the video at the top of this page.

"I wanted three confirmations that we were safe on the ground," Steltzner told me.

"I had three different people looking at three different pieces of data. The first thing you heard was 'Tango Delta Nominal', which was touchdown nominal coded up so the world would not erupt into applause.

"Then Dave Way said 'RIMU stable', which meant the inertial measurement unit on the rover indicated that it was not moving - so, that told us we weren't dragging the rover with the skycrane.

"And then I looked over at Brian Schratz who was sitting in the EDL comm. His orders were to count to 10 and then tell me if he was still getting persistent clean UHF signal, which meant the descent stage wouldn't have fallen back on the rover. He said 'UHF persistent'.

"I pointed at Al Chen who called out 'touchdown confirmed'. The room erupted and the world learned we'd just made it to the surface of Mars."

Steltzner wanted to be sure the skycrane descent stage had not crashed on top of the rover

Page 89: Mars missions

Where do you go after you've done something like that? Steltzner is unsure. He's out of a job now. He has to write up a report on the landing and hand it to Nasa's top brass, but then he's got to find another project.

"Will engineer for food", is how he advertises his skills.

The frustrating part about all this is that the extraordinary landing system devised by Steltzner's team appears to be a one shot affair.

The skycrane was supposed to be used again in 2018 to put a pair of rovers on Mars, but then this joint European and US plan was scrapped. Technical drawings can get filed away somewhere, but the expertise that makes them real is all too often allowed to just drift apart.

Instead of building on success, space agencies have an infuriating habit of going back to zero and starting all over again.

I know this is an oversimplification, but it seems that everything must be bespoke. We design something once and then we design something different. This appears to be the way with planetary exploration at any rate.

Contrast the approach with communications satellites which come off a production line. Their unit costs are substantially less as a consequence.

Given the opportunity, Adam Steltzner is in no doubt where he'd like to land next: "We should be going to Europa, the moon of Jupiter that is the most likely place in the Solar System to have existent life."

Page 90: Mars missions

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Comment number 67.

springheeledjaks 10th August 2012 - 23:35

I said to my wife as we watched the NASA TV coverage that the EDL scheme was a very typical "American" solution. It was gutsy, maybe a bit crazy at first sight but it has a "can do" attitude and you know that if it hadn't worked NASA would have come up with something else and tried again. The only way to fail is not to try.

0

Page 92: Mars missions

Comment number 66.

Under-Used 10th August 2012 - 15:35

@44 Wilem

OK. That goes a long way to explaining the time frame and my other queries. Thanks for explaining it clearly for me. I did figure that safety was probably paramount in selecting the landing zone, but given how successful the landing was hindsight made me ask those questions.

0

Comment number 65.

Pardip Bhardwaj 10th August 2012 - 15:10

No amount is too much in the quest of knowledge.

+2

Comment number 64.

Mitchy1275 10th August 2012 - 14:34

Another comment thread for the cavemen to come out and express their ill-informed opinions about how all this is a waste of money. Followed by the religious nuts going completely of subject and claiming that science can't disprove the existence of god. Makes me chuckle every lunch time.

Page 93: Mars missions

+4

Comment number 63.

yiannis 10th August 2012 - 13:58

We did not sent 2.5 billion $$s to Mars.

This is 2.5 billion that was invested back into our society, engineering and science.

2.5 billion well invested I beleave.

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Nasa's Curiosity rover targets smaller landing zone

By Jonathan Amos Science correspondent, BBC News

Nasa is now targetting a smaller landing ellipse that should put the rover closer to the base of Mount Sharp

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The US space agency (Nasa) says it has narrowed the expected landing zone for its Mars rover, Curiosity.

Page 100: Mars missions

The 900kg robot is heading for a touchdown on 6 August (GMT) in a near-equatorial depression on the Red Planet known as Gale Crater.

Controllers have drawn an ellipse on the surface that is just 7km by 20km.

They say they can hit this target because of their confidence in the high-precision landing system attached to the rover.

This system will use thrusters to guide the high-velocity phase of the robot's entry into the Martian atmosphere - a technology not available on previous lander missions. A large parachute and a rocket-powered cradle will manage the final moments of the descent.

Nasa says that by tightening the extent of the ellipse, down from the previously envisaged 20km by 25km, it can cut the time taken by the rover to roll to its primary science location.

Continue reading the main story

Curiosity - Mars Science Laboratory

Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

MSL - the biggest and best Mars mission yet

This is the base of a 5km-tall mountain in the middle of Gale Crater known as Mount Sharp.

Scientists expect Curiosity to find layered rock deposits at this site.

Page 101: Mars missions

These sediments should provide new insights on past environmental conditions on the Red Planet - conditions that may have supported microbial life many billions of years ago.

"We have reduced the amount of time it takes to traverse to that point by several months - perhaps as many as four," explained Pete Theisinger, the rover project manager at Nasa's Jet Propulsion Laboratory in Pasadena, California.

"And that allows a greater duration of prime mission at those key science targets and the accomplishment of science objectives."

The encapsulated Curiosity, also known as the Mars Science Laboratory (MSL), was launched in November last year.

Engineers are using the nine-month, 570-million-km-long cruise from Earth to the Red Planet to check out the rover's systems.

All 10 of the scientific instruments it will use on the surface appear to be in good health.

However, the mission team has lingering concerns about the drill Curiosity will employ to grind up rock samples for analysis.

This tool has a tendency to shed a Teflon coating as it manages the movement of powdered samples through its interior.

Nasa has so far spent about $2m on an experimental programme designed to understand how this contamination will affect the analytical chemistry conducted by the rover. But John Grotzinger, the rover project scientist from the California Institute of Technology, told reporters he was not that worried about the issue.

"It is not a serious problem because we see so many ways to work around this," he said.

Page 102: Mars missions

The rover will enter the atmosphere tucked inside a protective shell

Nasa will be making the third of six possible corrections to the mission's cruise trajectory in the next fortnight. Three further opportunities for fine tuning are available in the last week before arriving at Mars.

New software to command the entry, descent and landing (EDL) has also just been uploaded.

This will be required to command all aspects of the journey down to the surface.

The huge distance between the planets on 6 August, means it will take 13.8 minutes for a radio signal from Curiosity to be received by controllers - far too long a period to allow any intervention from Earth.

The rover's entry capsule is due to hit the top of the Martian atmosphere just after 05:10 GMT.

It will then take six or seven minutes to reach the surface, depending on factors such as the wind.

Touchdown is therefore expected at about 05:17 GMT. Given the light-travel time involved, signals confirming these events should be received at Earth at 05:24 GMT and 05:31 GMT (06:31 BST) respectively.

Page 103: Mars missions

Animation of Curiosity's journey to Mars and arrival on the Red Planet (Courtesy of Nasa)

Landing on Mars is notoriously difficult, and most of the missions despatched from Earth have failed to get down in one piece. The Americans, though, have an excellent recent record, and Nasa is bullish about the performance of Curiosity's EDL system.

"There is never a guarantee of success, but we have done everything prudently possible to ensure that our probability of success is as high as possible," said Dave Lavery, a senior Nasa official on the rover project.

The $2.5bn (£1.6bn) mission is funded for an initial two Earth years of operations, but MSL-Curiosity has a plutonium battery and so should have ample power to keep rolling for more than a decade.

It is likely the mechanisms on the rover will wear out long before its energy supply.

Page 104: Mars missions

MSL-Curiosity will try to land at the base of Gale Crater and then climb the mountain at its centre

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MSL - the biggest and best Mars mission Russia asked to join Mars project Mars rover aims for deep crater

Nasa has launched the most capable machine ever built to land on Mars.

The near one-tonne rover, tucked inside a capsule, left Florida on an Atlas 5 rocket at 10:02 local time (15:02 GMT).

Nicknamed Curiosity, the rover will take eight and a half months to cross the vast distance to its destination.

If it can land safely next August, the robot will then scour Martian soils and rocks for any signs that current or past environments on the planet could have supported microbial life.

The Atlas flight lasted almost three-quarters of an hour.

Continue reading the main story

Curiosity - Mars Science Laboratory

Project costed at $2.5bn; will see initial surface operations lasting two Earth years Onboard plutonium generators will deliver heat and electricity for at least 14 years 75kg science payload more than 10 times as massive as those of earlier US Mars rovers Equipped with tools to brush and drill into rocks, to scoop up, sort and sieve samples Variety of analytical techniques to discern chemistry in rocks, soil and atmosphere Will try to make first definitive identification of organic (carbon rich) compounds Even carries a laser to zap rocks; beam will identify atomic elements in rocks

MSL - the biggest and best Mars mission yet

By the time the encapsulated rover was ejected on a path to the Red Planet, it was moving at 10km/s (6 miles per second).

Page 113: Mars missions

Spectacular video taken from the upper-stage of the rocket showed it drifting off into the distance.

"Our spacecraft is in excellent health and it's on its way to Mars," said Curiosity project manager Peter Theisinger.

Nasa received a first communication from the cruising spacecraft about 50 minutes after lift-off through a tracking station in Canberra, Australia.

Controllers will command a course correction manoeuvre in two weeks to refine the trajectory to the Red Planet.

The rover - also known as the Mars Science laboratory (MSL) - is due to arrive at the Red Planet on 6 August 2012 (GMT). Then, the hard part begins - landing safely.

One senior space agency official this week called Mars the "Death Planet" because so many missions have failed to get down in one piece.

The Americans, though, have a good recent record and they believe a new rocket-powered descent system will be able to place the rover very precisely in one of the most exciting locations on the planet.

Page 114: Mars missions

It is being aimed at a deep equatorial depression called Gale Crater, which contains a central mountain that rises some 5km (3 miles) above the plain below.

The crater was chosen as the landing site because satellite imagery has suggested that surface conditions at some point in time may have been benign enough to sustain micro-organisms.

This included pictures of sediments at the base of the peak that were clearly laid down in the presence of abundant water.

MSL is equipped with 10 sophisticated instruments to study the rocks, soils and atmosphere in Gale Crater.

The $2.5bn (£1.6bn) mission is funded for an initial two Earth years of operations, but MSL-Curiosity has a plutonium battery and so should have ample power to keep rolling for more than a decade.

Page 115: Mars missions

It is likely the mechanisms on the rover will wear out long before its energy supply.

"The agency is ecstatic," observed Doug McCuistion, Nasa's Mars exploration programme director.

"We have started a new era of exploration, not just technologically but scientifically as well.

"I hope we have more work than the scientists can handle. When we get to the surface, I expect them all to be overrun with data they've never seen before. I expect the public to have images, vistas that they've never seen before either.

"Down in the bottom of Gale Crater, those images are going to be just stunning. It will be like sitting at the bottom of the Grand Canyon, I believe."

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MSL-Curiosity: Biggest Mars mission yetComments (101)

An elevation model of Gale crater made using data from Europe's Mars Express orbiter. MSL lands on the lower, nearside of the central peak, which rises more than 5km above the crater floor

More from Jonathan

Space - the new rock and roll Gale Crater: Geological 'sweet shop' awaits Mars rover Mars success depends on 'crazy' landing

Page 123: Mars missions

Ahoy! Your ship is being tracked from orbit

The delivery of Nasa's Mars Science Laboratory rover, known as Curiosity, to the surface of the Red Planet is a mouth-watering prospect.

The $2.5bn robot is by far the most capable machine ever built to touch another world. Consider just the history of wheeled vehicles on Mars.

In 1997, the US space agency put the toy-sized Pathfinder-Sojourner rover on the surface. It weighed just over 10kg.

This was followed seven years later by the 170kg, twin rovers Opportunity and Spirit. Their instrument complement combined (5kg + 5kg) was equal to the total mass of Sojourner.

Now, we await Curiosity - a 900kg behemoth due for launch this Saturday. Its biggest instrument alone is nearly four times the mass of that teeny robot back in '97.

"It's the size of a Mini Cooper with the wheelbase of a Humvee," is how project scientist John Grotzinger describes the rover.

So, we're expecting great things from Curiosity. A big machine to address some big questions.

A roving laboratory for Mars

General equipment: MSL equipped with tools to remove dust from rock surfaces, drill into rocks, and to scoop up, sort and sieve samples

Mast Camera: will image rover's surroundings in high-res stereo and colour; wide angle and telephoto; can make high-def video movies

ChemCam: pulses infrared laser at rocks up to 7m away; carries a spectrometer to identify types of atoms excited in laser beam

Sample Analysis at Mars: inside body; will analyse rock, soil and atmospheric samples; would make all-important organics identification

Chemistry and Mineralogy: another interior instrument. Analyses powdered samples to quantify minerals present in rocks and soils

Page 124: Mars missions

Mars Hand Lens Imager: mounted on arm toolkit; will take extreme close-ups of rocks, soil and any ice; details smaller than hair's width

Alpha Particle X-ray Spectrometer: Canadian arm contribution; will determine the relative abundances of different elements in samples

Radiation Assessment Detector: will characterize radiation environment at surface; key information for future human exploration

Mars Descent Imager: operates during landing sequence; high-def movie will tell controllers exactly where rover touched down

Rover Environmental Monitoring Station: Spanish weather station; measures pressure, temperature, humidity, winds, and UV levels

Dynamic Albedo of Neutrons: looks for sub-surface hydrogen; could indicate water buried in form of ice or bound in minerals

Mike Meyer is the lead scientist on Nasa's Mars exploration effort: "MSL plays a central role in a series of missions of looking at Mars and determining whether or not it has the potential for life. It is capable of going to a region and exploring that region, and telling us whether or not it has been, or may even still be today, a habitable place - something that could support microbial life."

Engineers have designed a new entry, descent and landing system they say can put the roving laboratory down on a button.

OK, so this button is 20km wide but the accuracy being promised is an order or magnitude better than previous technology, and it has allowed researchers essentially to go where their heart desired.

They've chosen a near-equatorial depression called Gale Crater. It's one of the deepest holes on Mars - deeper even than Valles Marineris, that great scar that tears across one quarter of the planet.

Scientists believe Gale will be the geological equivalent of a sweet shop - so enticing and varied are the delights it appears to offer.

"This crater is about 100 miles across and it has a central mound that's about three miles high," explains Grotzinger.

"The important thing is that the central mound is a series of layers that cut across the history of Mars covering over a billion years. So, not only do we have high-resolution images showing we have layers in this mound, but also because of the spectrometers we have in orbit flying around Mars, we can see minerals that have obviously interacted with water."

The intention is to put MSL-Curiosity down on the flat plain of the crater bottom. The vehicle will then drive up to the base of the peak.

In front of it, the rover should find abundant quantities of clay minerals (phyllosilicates) that will give a fresh insight into the very wet, early epoch of the Red Planet. Clays only form when rock spends a lot of time in contact with water.

Page 125: Mars missions

Above the clays, a little further up the mountain, the rover should find sulphate salts, which relate to a time when Mars was still wet but beginning to dry out. Go higher still, and MSL will find mostly the "duststones" from the cold, desiccated world that Mars has now become.

But even before all this, MSL will land on what looks from orbit to be alluvial fan - a spread of sediment dumped by a stream of water flowing down the crater wall.

If the science on this fan proves productive, it could be many months before MSL gets to the base of the mountain.

The rover has time, though. Equipped with a plutonium battery, it has the power to keep rolling for more than 10 years - time enough to scout the crater floor and climb to the summit of the mountain.

"We are not a life detection mission," stresses Grotzinger.

Page 126: Mars missions

"I know that many of you would like to know when we're going to get on with doing that. But the first and important step towards that is to try to understand where the good stuff may be. And in this case a habitable environment needs to be described.

"This is an environment that contains a source of water, which is essential for all life as we understand it on Earth; we need a source of energy, which is important for organisms to do metabolism; and we also need a source of carbon, which is essential to build the molecular structures that an organism is composed of."

You may be wondering why these sorts of missions don't look directly for life, and the reason is pretty straightforward. Those types of observations are actually quite difficult to make, and the truth is we don't really expect to find microbial communities thriving at the surface of present-day Mars. The conditions are simply too harsh.

Little one: the Sojourner rover now looks like a toy compared to MSL

But go back further in time, and the situation may have been very different. It seems pretty clear now that when life was getting going on Earth more than three billion years ago, conditions on Mars were also warm and wet.

But the traces of those ancient lifeforms on our own planet are now very hard to read, and often require instruments that would fill a room. Not even a machine the scale of Curiosity could carry them.

So, MSL will restrict itself to the habitability question, and it will do this using a combination of 10 instruments.

The rover has instruments on a mast that can survey the surroundings and assess potential sampling targets from a distance. These include cameras and an infrared laser system that can excite the surface of a rock to betray some of its chemistry.

It's also got instruments on the end of a 2.1m-long arm for close-up inspections. These include a drill that can pull samples from up to 5cm inside a rock.

And MSL has two big lab kits inside its body to do detailed analysis of all the samples it takes from rocks, soils and even the atmosphere.

Page 127: Mars missions

One eureka moment for this mission would be if it could definitively identify a range of complex organic (carbon-rich) molecules, such as amino acids.

Previous missions, notably the Viking landers in the 1970s, have hinted at the presence of organics. It would be good if Curiosity could bury all doubts. But it will be tough.

Even in Earth rocks where we know sediments have been laid down in proximity to biology, we still frequently find no organic traces. The evidence doesn't preserve well.

So, getting a positive result on Mars would be a triumph for the MSL team. Although, I guess one should make it clear - just finding complex organics does not indicate the presence of life because we know these carbon molecules can have non-biological origins, in meteorites, for example.

Nonetheless, it would help to build a case that at least the necessary preconditions have existed for life on the Red Planet at some point.

We can then think about how we might go about testing for life itself, although I think the only real solution will be to return rocks for analysis in those room-sized instruments here on Earth.

Your comments (101)

Article written by Jonathan Amos Jonathan Amos Science correspondent

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Comment number 101.

Shift That Paradigm 26th November 2011 - 20:16

I'm very relieved that the launch went well.

Between now and next August when Curiosity lands it's probably a good idea to fix our money system otherwise a gaping black hole awaits us and all our endeavours might all be for nothing.

Usury/interest must go and we need a resource-based economy and not a money-based one.

We really do need a paradigm shift and soon. We can do it.

0

Page 129: Mars missions

Comment number 100.

Jones_the_Steve 26th November 2011 - 18:34

Robert Lucien and Powermeerkat,

I wasn't belittling the Russians. My point was that many people complain about the cost of space science but don't realise the benefits that having a huge scientific and industrial base working on extremely difficult tasks brings. It isn't just Teflon and velcro. Glad the launch went well.

+1

Comment number 99.

Robert Lucien 26th November 2011 - 17:51

#94 powermeerkat, 56.Jones_the_Steve, Shift That Paradigm.

Curiosity just lifted off on an Atlas 5 and the Atlas 5 is powered by Russian technology, specifically Buran technology, specifically the RD-180 rocket. A good thing since its about the most powerful and reliable rocket in current use (both Atlas and the RD-180). - http://en.wikipedia.org/wiki/RD-180

-3

Comment number 98.

BobBall 26th November 2011 - 13:12

Page 130: Mars missions

21.  Tom Ray 24TH NOVEMBER 2011 - 19:44Where can I get one of the batteries that will drive the Curiosity lander artound for 10 years?

Personally, it will be fingers crossed that the rocket launch goes well. Otherwise the USA may suffer serious radiation contamination from the plutonium batteries on Curiosity.

0

Comment number 97.

Whizz1967 26th November 2011 - 10:58

Knights of Cydonia,now that is art

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Mars rover aims for deep craterBy Jonathan Amos Science correspondent, BBC News

Nasa has confidence MSL-Curiosity's landing system can put the rover down in a safe spot

Continue reading the main story

Related Stories

Mars rover mission at an end Nasa delays its next Mars mission

Nasa's next Mars rover will be aimed at one of the planet's deepest craters.

MSL-Curiosity weighs almost a tonne and is the size of a Mini Cooper.

It will carry instruments to study whether Mars had the conditions in the past to support microbial life.

The US space agency has selected an equatorial depression called Gale Crater to investigate that question.

The $2.5bn rover will launch from Florida in November.

It should touch-down at the Red Planet in August 2012.

Page 137: Mars missions

Gale Crater is about 155km in diameter, and its lowest point is about 4.6km below datum, the reference point on Mars from which all other elevations are measured.

The landing zone will be much narrower than the crater's width. But Nasa has high confidence the rocket-powered descent system designed for MSL-Curiosity can put it inside a target zone less than 20km across.

If this Skycrane, as it is known, works as planned, the rover will be delivered close to the central peak of the crater.

This is a huge mountain that contains layers of deposits that should offer an impressive view of millions of years of Martian geological history.

Continue reading the main story

“Start Quote

It's also going to be just an incredibly beautiful place... where you have steep-sided cliffs with the rover going in the shallower valleys between them”

Dawn Sumner Co-chair, MSL landing site working group

"What we've learnt over 150 years of exploration is that if you start at the bottom of the pile of layers and you go to the top, it's like reading a novel," said mission project scientist John Grotzinger from Nasa's Jet Propulsion Laboratory.

"We think Gale Crater is going to be a great novel about the early environmental evolution of Mars that offers strong prospects potentially for the discovery of habitable environments, and maybe even a shot at discovering organic compounds."

Dr Grotzinger stressed that MSL-Curiosity is not a life-detection mission; it cannot identify microbes or even microbial fossils. But it can assess whether ancient conditions could have supported organisms.

This means Gale must show evidence for the past presence of water, a source of energy with which life forms could have metabolised, and a source of organic compounds with which organisms could have built their structures.

Gale has been chosen because satellite imagery suggests it may well be one of the best places on Mars to look for these biological preconditions.

Page 138: Mars missions

The Skycrane will lower MSL-Curiosity on to the relatively flat valley floor on the end of tethers before blasting away to a safe distance. The robot will then drive up to the base of the central mountain.

In front of it, the rover should should find abundant quantities of clay minerals that will give fresh insight into the very wet early epoch of the Red Planet. Above the clays, the deposits change to sulphates, which relate to a period in time when Mars was still wet but was beginning to dry out.

In addition, there is evidence water flowed down the mountain at some point in the past, cutting a deep gully and depositing sediments out on the plain.

The rover will get to investigate all of this.

"The suite of things that we can see at Gale represents a diverse number of environments over a long period of time, possibly tens to hundreds of millions of years, plus the modern environment," said Dawn Sumner, a geologist at the University of California Davis, US.

Page 139: Mars missions

"It's also going to be just an incredibly beautiful place - it will be a lot like the southwest of the US, areas like Monument Valley where you have steep-sided cliffs with the rover going in the shallower valleys between them," the co-chair of the landing site working group explained.

Drop-down mock-up

Gale was selected after a rigorous investigation of some 60 competing sites. The selection process took five years and involved about 150 researchers.

High-resolution imagery was acquired of the best sites, and Nasa even built models of some of the site surfaces and dropped a simulation rover on to them to assess their suitability.

Michael Watkins, the mission's project engineer, said the expected precision of the new entry, descent and landing system meant that the space agency could have chosen any of the top contenders.

"We can control the lift of the vehicle a little bit during entry and we can cancel out some unexpected differences in atmospheric drag that would cause the landing zone to be large," he told reporters.

"Previous missions have had landing zones that have been up to 10 times larger than MSL. MSL is going to land in a 20km-across spot."

MSL-Curiosity has been funded for an initial surface mission of two years. But the fact that Nasa's Opportunity rover continues to roll across the Red Planet today, seven years after landing, suggests the new vehicle may have a very long life ahead of it. What is more, the new vehicle carries a nuclear battery that will provide ample power on a planet where dust storms can blight the operation of solar panels.

MSL-Curiosity is currently being prepared for its November launch at Nasa's Kennedy Space Center.

Page 140: Mars missions

Site selection whittled possibilities down to four - Eberswalde Crater, Gale Crater, Holden Crater and Mawrth Vallis. Then it went down to Eberswalde Crater and Gale Crater, with Gale winning the final run-off.

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