Posted on by Ken Kremer

Super Bowl of Planetary Exploration – Great Convergence of Spacecraft for Curiosity Mars Landing

Image caption: This artist’s still shows how NASA’s Curiosity rover will communicate with Earth during landing. As the rover descends to the surface of Mars, it will send out two different types of data: basic radio-frequency tones that go directly to Earth (pink dashes) and more complex UHF radio data (blue circles) that require relaying by orbiters. NASA’s Odyssey orbiter will pick up the UHF signal and relay it immediately back to Earth, while NASA’s Mars Reconnaissance Orbiter will record the UHF data and play it back to Earth at a later time. Image credit: NASA/JPL-Caltech

Curiosity is just hours away from ‘do or die’ time and the high stakes and harrowing “7 Minutes of Terror” after an 8 month journey to touchdown on the Red Planet and potentially make historic discoveries that could ultimately answer the question ‘Are We Alone?’

An armada of spacecraft are converging at Mars for the historic landing of NASA’s Curiosity Mars Science Lab rover, the most daring, daunting and complex robotic mission that NASA has ever attempted. See the Video below

“Tonight is the Super Bowl of Planetary Exploration,” said Doug McCuistion, director of the Mars Exploration Program at NASA Headquarters, at a NASA JPL news briefing on Sunday (Aug. 5). “One yard line, one play left. We score and win, or we don’t score and we don’t win.”

“We are about to land a rover that is 10 times heavier and with 15 times the payload [compared to earlier rovers]. No matter what happens, I just want the team to know I am incredible proud and privileged to have worked with these guys and gals.”

“This is the most challenging landing we have ever attempted.”

“Mars Odyssey and Mars Reconnaissance Orbiter (MRO) are in good shape to relay the entry, descent and landing data.”

The trajectory to the atmospheric aim point is so precise that engineers decided to cancel the last course correction maneuver firing planned for today.

Tonight at around 1 AM EDT, Curiosity smashes into the Martian atmosphere at over 13,200 MPH (5,900 m/s) leading to an unprecedented entry, descent and landing sequence culminating in the never before tried “skycrane maneuver” and touchdown at 0 MPH just 7 minutes later astride a 3 mile (5 km ) mountain inside Gale Crater. Mount Sharp represents perhaps millions to perhaps billions of years of Mars geologic history stretching from the ancient wetter time to the more recent desiccated era.

“The team and the spacecraft are ready,” said Adam Steltzner, MSL Entry, Descent and Landing Lead engineer JPL. “We did everything possible to deserve success tonight, although as we all know we can never guarantee success. I am rationally confident and emotionally terrified and ready for EDL.”

Video Caption:This artist’s animation shows how orbiters over Mars will monitor the landing of NASA’s Curiosity rover.The animation starts with the path of NASA’s Mars Science Laboratory spacecraft capsule — which has the Curiosity rover tucked inside — speeding towards its Martian landing site in Gale Crater. Then, the paths of NASA’s Mars Odyssey orbiter and Mars Reconnaissance Orbiter become visible. Curiosity will be sending some basic radio-frequency tones straight back to Earth during its entry, descent and landing, on Aug. 5 PDT (Aug. 6 EDT). But sending more detailed engineering data about the landing is more complicated. Those kinds of data will be sent by Curiosity to the orbiters Odyssey and MRO, which will then relay them back to NASA’s Deep Space Network antennas on Earth. Curiosity can only send the data to Odyssey and MRO when it can see the orbiters — as soon as they rise above and before they set below the Martian horizon. Image Credit: NASA/JPL-Caltech

The 6 wheeled SUV sized rover Curiosity is scheduled to touchdown inside Gale Crater at about 1:31 a.m. EDT (531 GMT) early on Aug. 6 (10:31 p.m. PDT on Aug. 5).

Under the best circumstance, the first signals from the surface could be transmitted via Odyssey within a few minutes of touchdown.

Curiosity is a robotic geologist and a roving chemistry lab with 10 state-of-the-art science instruments that will collect and analyze soil and rock samples and zap rocks from a distance with a laser to search for carbon in the form of organic molecules – the building blocks of life.

“We will attempt to have the MRO HiRISE camera point at MSL and get an image of it the final phases of its descent going down to Mars,” said McCuistion. “This will be difficult because of all the gyrations by the spacecraft. It’s pretty challenging. It will be very tough. We were lucky to get one of Phoenix. I am hopeful”

“We have the opportunity for untold discoveries. We couldn’t even imagine going to this place on Mars a few years ago.”

“If we are successful, it will be one of the greatest feats in exploration ever!”

Watch NASA TV online for live coverage of the Curiosity landing on Aug. 5/6 starting at 11:30 pm EDT:

www.mars.jpl.nasa.gov or www.nasa.gov

Ken Kremer

Posted on by Ken Kremer

When are the First Pictures Expected from Curiosity

Image Caption: This graphic shows the locations of the cameras on NASA’s Curiosity rover. The rover’s mast features seven cameras: the Remote Micro Imager, part of the Chemistry and Camera suite; four black-and-white Navigation Cameras (two on the left and two on the right) and two color Mast Cameras (Mastcams). Image credit: NASA/JPL-Caltech

If all goes well with the high stakes descent, the first images from the 1 ton Curiosity rover on the Martian surface could be received in the first few minutes after touchdown inside Gale Crater beside a huge mountain with layered sediments – now less than a day away.

It all depends on whether Curiosity successfully establishes a communications link with NASA’s Mars Odyssey signal relay spacecraft as the resilient orbiter simultaneously flies over the landing site and transmits the vital data indicating “Yes I’m Alive” to tracking stations back on Earth for analysis by anxiously waiting engineers at NASA’s Jet Propulsion Lab in Pasadena, Calif.

“We are expecting Odyssey to relay good news,” said Steve Sell of the JPL engineering team that developed and tested the mission’s complicated and never before used “sky crane” landing system. “That moment has been more than eight years in the making.”

The initial pictures would be reduced-resolution fisheye black-and-white images from the Hazard-Avoidance cameras (Hazcams), attached to the front and rear body of the rover.

“On the first night we expect the first low resolution black-and -white images from the rear hazcam, thumbnails about 50 x 50 pixels” said JPL’s Richard Cook, deputy project manager for Curiosity at today’s (Aug. 4) news briefing for reporters at JPL. “The Mars Odyssey relay will continue for 2 to 5 minutes after landing. Later that first night we hope to get a 512 x 512 pixel image looking out the rear of the rover.”

The hazcam cameras are covered with protective clear dust covers so the initial pictures might be taken through the covers if they haven’t popped off yet, Cook explained.

“The next chance to receive data and pictures comes 2 hours later post-landing during the second Odyssey over flight,” he added. “The next opportunity after that comes about 12 hours later.”

Initial thumbnail images from the rovers Mars Descent Imager (MARDI) camera,located on the belly of the rover, during the descent to the Red Planet’s surface are expected a day later on Aug. 7. These images will help pinpoint Curiosity’s exact location.

The team expects to deploy the rover’s mast with the higher resolution cameras on Aug. 7. Curiosity would then begin acquiring a 360 degree stereo panorama with the Navcam cameras the next day on Aug. 8.

The first color images are expected around Aug 8 from the Mars Hand Lens Imager, or MAHLI, one of five devices on the rover’s Inspector Gadget-like robotic arm. MAHLI will still be in the stowed position when it snaps the initial pictures.

But the whole plan depends on a successful landing and engineering checkout and instrument deployments along with no significant technical problems.

Navigators guiding NASA’s Curiosity Mars Science Lab (MSL) are threading the needle in these final 24 hours as she accelerates towards a miniscule target box barely 2 miles by 7 miles (2.8 by 11.5 kilometers) wide.

“We’re now right on target to fly through the eye of a needle, that is, our target at the top of the Mars atmosphere,” said MSL mission manager Arthur Amador, JPL, at the briefing. “The target is a box that’s 3 kilometers (1.9 miles) by 12 kilometers (7.5 miles) in dimension. And we’re flying right through it.”

Image Caption: Eye of the Needle – This graphic shows how navigators steering NASA’s Mars Science Laboratory capsule — with the Curosity rover tucked inside — are aiming for a pinpoint location above Mars. They liken it to threading the eye of a needle. Navigators are aiming for a point inside of a target box that is 1.7 by 7.15 miles (2.8 by 11.5 kilometers) wide above the Red Planet. Mars’ gravity well, which has been precisely calculated, will pull the spacecraft into the Martian atmosphere. The plane in which MSL has been traveling toward Mars — labeled trajectory plane — hits what is known as the B-plane at a 90 degree angle. The B plane is the plane perpendicular to the velocity of the spacecraft when it is far away from Mars. It is used for maneuver targeting. The northward direction of Mars’ pole is also indicated. Credit: NASA/JPL-Caltech

As of Saturday evening, Aug 4, MSL has cut its distance from Mars in half in the past day. MSL is the same distance from Mars as the Earth is from the Moon, around 250,000 miles (400,000 km) and closing at more than 8000 MPH (about 3,600 meters per second).

“Right now, I’m closer to Mars than the moon is to Earth,” Curiosity just tweeted.

After the nail biting entry, descent and landing (EDL) , the 6 wheeled rover Curiosity is scheduled to touchdown inside Gale Crater at about 1:31 a.m. EDT (531 GMT) early on Aug. 6 (10:31 p.m. PDT on Aug. 5).

The 10 feet (3 meters) long mini Cooper sized Curiosity is loaded with 10 state-of-the-art science experiments that will search for organic molecules – the building blocks of life. She is the most sophisticated robot ever sent to the surface of another world. Curiosity will investigate the Red Planet like never before and look for signs of Martian microbial life and habitable zones by analyzing soil and rock samples with high powered analytical chemistry instruments.


Image Caption: This global map of Mars was acquired on Aug. 2, 2012, by the Mars Color Imager instrument on NASA’s Mars Reconnaissance Orbiter. Image credit: NASA/JPL-Caltech/MSSS

And even the weather is cooperating.

“The active dust storm we saw south of Gale crater has now evolved into a harmless dust cloud. Basically, the poofed remnants of what was that dust storm. Mars is cooperating by providing good weather for landing,” said JPL’s Ashwin Vasavada, deputy project scientist for Curiosity.

“The team has done everything possible to make it a success. It is scary and risky. I am proud of the team,” said Doug McCuistion, director of the Mars Exploration Program at NASA Headquarters at the JPL briefing. “Risk exists.”

“The human spirit is driven by these kind of challenges. These challenges force us to explore our surroundings and understand what’s out there. And look at “Are we Alone?”

Watch NASA TV online for live coverage of the Curiosity landing on Aug. 5/6 starting at 11:30 pm EDT:

www.mars.jpl.nasa.gov or www.nasa.gov

Ken Kremer


Image Caption: Curiosity Landing site at Gale Crater from ESA Mars Express Orbiter. Credits: ESA/DLR/FU Berlin (G. Neukum)

Read continuing features about Curiosity by Ken Kremer starting here:

Curiosity Precisely on Course at T Minus 48 Hours till a ‘Priceless Asset’ Lands on Mars

3 Days to Red Planet Touchdown – Watch the Harrowing Video of Car-Sized Curiosity Careening to Crater Floor

4 Days to Mars: Curiosity activates Entry, Descent and Landing Timeline – EDL Infographic

Curiosity’s Grand Entrance with Star Trek’s William Shatner and Wil Wheaton – Video Duet

Curiosity Completes Crucial Course Correction – 1 Week from Mars !

T Minus 9 Days – Mars Orbiters Now in Place to Relay Critical Curiosity Landing Signals

Posted on by Ken Kremer

Curiosity Precisely on Course at T Minus 48 Hours till a ‘Priceless Asset’ Lands on Mars

At this moment the mega rover Curiosity is barely 48 hours from Mars and transformation into a “priceless asset” on the Red Planet’s surface where she’ll initiate the search for evidence for habitats of Martian microbial life – past or present.

NASA JPL engineers have guided the Curiosity Mars Science Lab (MSL) so precisely on her 352-million-mile (567-million-kilometer) interplanetary journey through space that they decided to cancel today’s planned course adjusting thruster firing, known as Trajectory Correction Maneuver 5 (TCM-5). If needed, they have one last chance for a course correction burn (TCM-6) this weekend on Sunday.

“We are now about 1000 yards from the entry target that will bring us to the touchdown point on the North side of Gale Crater,” said Tomas Martin-Mur, MSL Navigation team chief of NASA’s Jet Propulsion Laboratory, Pasadena, Calif., at an Aug. 2 MSL news briefing.

Curiosity is now less than 450,000 miles away from Mars, careening through space at over 8000 MPH (3576 m/s) and accelerating moment by moment due to the ever increasing pull of Mars gravity.

To put that in perspective, that’s less than twice the distance from the Earth to the Moon.

By the time Curiosity hits the Martian atmosphere on Sunday night/Monday early morning (Aug 5/6) she’ll be blazing through space at more than 13,200 MPH (5,900 m/s).

“I’m less than 500,000 miles from Mars & the Red Planet looks about the size as a full moon seen from Earth. 2 days to landing!” Curiosity tweeted a short while ago.

She remains healthy, with all systems operating nominally. And she is brave!

Curiosity will not flinch knowing she must endure the “7 Minutes of Terror” and the fiery entry,descent and landing to touchdown inside the 96 mile wide Gale Crater just 2 days from now.

Watch the harrowing landing animation – here.


Image Caption: Gale Crater Landing site for Curiosity. Credit: NASA

Absolutely staggering photos and science discoveries are expected from Curiosity – the boldest, most daring and by far the most scientifically complex and capable robotic emissary ever dispatched by humans to another world.

But after landing, the team needs to first test the rover’s components and unfurl the robots camera mast and instruments.

“We must recognize that on Sunday night at 10:32 PM PST(1:32 AM EST, 532 GMT) we will have a ‘priceless asset’ that we placed on the surface of another planet that could last for a long time IF we operate it correctly,” said Pete Theisinger, MSL project manager, JPL, at the Aug. 2 news briefing.

“So we will be cautious as hell about what we do with it !”

“This is a very complicated beast, so we all need to exercise caution. It’s much, much more complicated than Spirit and Opportunity in terms of the interactions amongst the various pieces and the things we need to keep track of in order to operate it successfully.”

A few hours after touchdown, Curiosity will send back the first images from the Gale crater landing site beside a towering 3 mile (5 km) high layered Martian mountain, named Mount Sharp.

“We will start doing science right away. Very roughly, the contact science will begin in 2 to 4 weeks. Sampling science will begin 1 to 2 months after we land,” explained Theisinger.

The car-sized Curiosity is 10 feet (3 meters) long and packed with 10 state-of-the-art science experiments that will search for organic molecules – the building blocks of life – and clay minerals, potential markers for signs of Martian microbial life and habitable zones.


Image Caption:Curiosity Mars Science Laboratory Rover – inside the Cleanroom at KSC, with robotic arm extended prior to encapsulation and Nov. 26, 2011 liftoff. Credit: Ken Kremer/kenkremer.com

Watch NASA TV online for live coverage of the Curiosity landing on Aug 5/6 starting at 11:30 pm EDT:

www.mars.jpl.nasa.gov or www.nasa.gov

Ken Kremer


Image Caption: MSL entry track to Gale Crater. Credit: NASA

Read continuing recent features about Curiosity by Ken Kremer starting here:

3 Days to Red Planet Touchdown – Watch the Harrowing Video of Car-Sized Curiosity Careening to Crater Floor

4 Days to Mars: Curiosity activates Entry, Descent and Landing Timeline – EDL Infographic

Curiosity’s Grand Entrance with Star Trek’s William Shatner and Wil Wheaton – Video Duet

Curiosity Completes Crucial Course Correction – 1 Week from Mars !

T Minus 9 Days – Mars Orbiters Now in Place to Relay Critical Curiosity Landing Signals

Posted on by Ken Kremer

3 Days to Red Planet Touchdown – Watch the Harrowing Video of Car-Sized Curiosity Careening to Crater Floor


Video Caption: This 11-minute animation depicts key events of how NASA’s Mars Science Laboratory mission will land the huge rover Curiosity on Mars on August 5/6, 2012. Credit: NASA

Well, here we are 3 days from the thrilling ‘touchdown’ of Curiosity on Mars on the boldest mission yet by humans to the Red Planet – Seeking Signs of Life beyond Earth!

The Curiosity Mars Science Lab rover is by far the hardest and most complex robotic mission that NASA has ever attempted. She marks a quantum leap beyond anything tried before in terms of the technology required to land this 2000 pound beast and the science she’ll carry out for a minimum 2 year prime mission.

So watch this harrowing video (above) – Outlining how Curiosity slams into the Martian atmosphere at 13200 MPH and comes to rest at 0 MPH after surviving the “7 Minutes of Terror” with an unprecedented guided entry, rocket powered descent, neck snapping supersonic parachute deployment and never before used Sky Crane maneuver – and be sure you’re safely seated !

The car-sized Curiosity has entered the final 72 hours of careening towards a crater floor on Mars.

After the nail biting entry, descent and landing (EDL), the 6 wheeled rover Curiosity is scheduled to touchdown inside Gale Crater at about 1:31 a.m. EDT (531 GMT) early on Aug. 6 (10:31 p.m. PDT on Aug. 5).

“It looks a little crazy !” said Adam Steltzner, MSL Entry, Descent and Landing Lead engineer JPL , at today’s (Aug. 2) pre-landing briefing for reporters at NASA’s Jet Propulsion Lab (JPL) in Pasadena, Calif. “But it’s the least crazy compared to other methods we evaluated.”

“Everything looks good for Sunday night. Over 300 Years of human individual contributions went into the MSL EDL system. We pull 10 Earth G’s or more of acceleration during first contact with the Martian atmosphere.”

See the detailed EDL graphic below –
Image caption: Entry, Descent and Landing (EDL) Timeline – click to enlarge for full image. Credit: NASA

Curiosity is the first mobile soil and rock sampling and chemistry lab dispatched to Mars. It’s also the first astrobiology mission to Mars since the twin Viking missions of the 1970’s.

“We are about to land a small compact car on Mars with a trunk load of instruments. It’s an amazing feat, exciting and daring. It’s fantastic,” said Doug McCuistion, director of the Mars Exploration Program at NASA Headquarters at the JPL briefing.

“It’s an extreme pleasure to be here. MSL has a huge reach, to the past, the future and around the world. Since the heatshield is nearly the size of the Orion heat shield, we’ll also learn an enormous amount about how we’ll land humans on Mars.”

“MSL is a workhorse for the future,” McCuistion emphasized.

Curiosity will search for the ingredients of life in the form of organic molecules – the carbon based molecules which are the building blocks of life as we know it. The one-ton behemoth is packed to the gills with 10 state-of-the-art science instruments including a 7 foot long robotic arm, scoop, drill and laser rock zapper.

Watch NASA TV online for live coverage of the Curiosity landing on Aug 5/6:
mars.jpl.nasa.gov or www.nasa.gov

Ken Kremer

Posted on by Ken Kremer

4 Days to Mars: Curiosity activates Entry, Descent and Landing Timeline – EDL Infographic

It’s 4 Days to Mars – and NASA’s Curiosity Mars Science Lab (MSL) spacecraft is now flying under the control of the crafts autonomous entry, descent and landing timeline and picking up speed as she plunges ever faster to the Red Planet and her Rendezvous with Destiny.

“Timeline activated. Bleep-bop. I’m running entry, descent & landing flight software all on my own. Countdown to Mars: 5 days,” Curiosity tweeted Tuesday night.

See below an EDL explanatory infographic timeline outlining the critical sequence of events which must unfold perfectly for Curiosity to safely survive the “7 Minutes of Terror” set to begin on the evening of August 5/6.

Aug. 1 TV Viewing Alert – 11:30 PM EDT – see NASA Science Chief John Grunsfeld tonight (Wed, Aug. 1) on the Colbert Report


Image Caption: Curiosity EDL infographic – – click to enlarge

And the excitement is building rapidly for NASA’s biggest, boldest mission ever to the Red Planet as the flight team continues to monitor Curiosity’s onboard systems and flight trajectory. Yesterday, the flight team successfully carried out a memory test on the software for the mechanical assembly that controls MSL’s descent motor, configured the spacecraft for its transition to entry, descent and landing approach mode, and they enabled the spacecraft’s hardware pyrotechnic devices.

Curiosity remains healthy and on course. If fine tuning for the targeted landing ellipse is needed, the next chance to fire on board thrusters to adjust the trajectory is Friday, Aug. 3.

The 4th of 6 possible Trajectory Correction Maneuver (TCM) firings was just accomplished on Sunday, July 29 – details here.

The car sized Curiosity rover is scheduled to touchdown on Mars at about 1:31 a.m. EDT (531 GMT) early on Aug. 6 (10:31 p.m. PDT on Aug. 5) inside Gale Crater and next to a 3 mile (5 km) mountain taller that the tallest in the US.

Gale Crater is 154 km (96 mi) in diameter and dominated by a layered mountain rising some 5 km (3 mi) above the crater floor which exhibits exposures of minerals that may have preserved evidence of past or present Martian life.

Curiosity is packed with 10 state-of-the-art science experiments that will search for organic molecules and clay minerals, potential markers for signs of Martian microbial life and habitable zones.

Watch NASA TV online for live coverage of the Curiosity landing on Aug 5/6:
mars.jpl.nasa.gov or www.nasa.gov

Ken Kremer

Posted on by Ken Kremer

T Minus 9 Days – Mars Orbiters Now in Place to Relay Critical Curiosity Landing Signals

Image Caption: NASA’s Mars Odyssey will relay near real time signals of this artist’s concept depicting the moment that NASA’s Curiosity rover touches down onto the Martian surface. NASA’s Mars Reconnaissance Orbiter (MRO) and ESA’s Mars Express (MEX) orbiter will also record signals from Curiosity for later playback, not in real time. Credit: NASA

It’s now just T minus 9 Days to the most difficult and complex Planetary science mission NASA has ever attempted ! The potential payoff is huge – Curiosity will search for signs of Martian life

The key NASA orbiter at Mars required to transmit radio signals of a near real-time confirmation of the August 5/6 Sunday night landing of NASA’s car sized Curiosity Mars Science Lab (MSL) rover is now successfully in place, and just in the nick of time, following a successful thruster firing on July 24.

Odyssey will transmit the key signals from Curiosity as she plunges into the Martian atmosphere at over 13,000 MPH (21,000 KPH) to begin the harrowing “7 Minutes of Terror” known as “Entry, Descent and Landing” or EDL – all of which is preprogrammed !

Engines aboard NASA’s long lived Mars Odyssey spacecraft fired for about 6 seconds to adjust the orbiters location about 6 minutes ahead in its orbit. This will allow Odyssey to provide a prompt confirmation of Curiosity’s landing inside Gale crater at about 1:31 a.m. EDT (531 GMT) early on Aug. 6 (10:31 p.m. PDT on Aug. 5) – as NASA had originally planned.

Without the orbital nudge, Odyssey would have arrived over the landing site about 2 minutes after Curiosity landed and the signals from Curiosity would have been delayed.

A monkey wrench was recently thrown into NASA relay signal plans when Odyssey unexpectedly went into safe mode on July 11 and engineers weren’t certain how long recovery operations would take.

“Information we are receiving indicates the maneuver has completed as planned,” said Mars Odyssey Project Manager Gaylon McSmith of NASA’s Jet Propulsion Laboratory, Pasadena, Calif. “Odyssey has been working at Mars longer than any other spacecraft, so it is appropriate that it has a special role in supporting the newest arrival.”

Odyssey has been in orbit at Mars since 2001 conducting orbital science investigations.

Read my review article on Odyssey’s science discoveries – here

Odyssey serves as the primary communications relay for NASA’s other recent surface explorers – Opportunity, Spirit and Phoenix. Opportunity recently passed 3000 Sols of continuous operations.

Two other Mars orbiters, NASA’s Mars Reconnaissance Orbiter and the European Space Agency’s Mars Express, also will be in position to receive radio transmissions from the Mars Science Laboratory during its descent. However, they will be recording information for later playback, not relaying it immediately, as only Odyssey can.

“We began optimising our orbit several months ago, so that Mars Express will have an orbit that is properly “phased” and provides good visibility of MSL’s planned trajectory,” says Michel Denis, Mars Express Spacecraft Operations Manager.

Mars Express has been orbiting the planet since December 2003.


Image Caption: Mars Express supports Curiosity MSL. Credit: ESA

“NASA supported the arrival of Mars Express at Mars in 2003, and, in the past few years, we have relayed data from the rovers Spirit and Opportunity,” says ESA’s Manfred Warhaut, Head of Mission Operations.

“Mars Express also tracked the descent of NASA’s Phoenix lander in 2008 and we routinely share our deep space networks.

“Technical and scientific cooperation at Mars between ESA and NASA is a long-standing and mutually beneficial activity that helps us both to reduce risk and increase the return of scientific results.”

Watch NASA TV online for live coverage of Curiosity landing: mars.jpl.nasa.gov or www.nasa.gov

Ken Kremer

Posted on by Jason Major

Will Curiosity Look for Life on Mars? Not Exactly…

“Curiosity is not a life detection mission. We’re not actually looking for life and we don’t have the ability to detect life if it was there. What we are looking for is the ingredients of life.”
– John Grotzinger, MSL Project Scientist

And with these words this latest video from NASA’s Jet Propulsion Laboratory begins, explaining what Curiosity’s goal will be once it arrives on Mars on August 5. There will be a lot of media coverage of the event and many news stories as the date approaches, and some of these will undoubtedly refer to Mars Science Laboratory as a “search for life on Mars” mission… but in reality the focus of MSL is a bit subtler than that (if no less exciting.)

But hey, one can always dream

Video: NASA/JPL

Posted on by Ken Kremer

Dawn’s Vestan Endeavour Exceptionally Exciting near End of Year-Long Super Science Survey

Image Caption: Divalia Fossa equatorial trough at Vesta pictured in side by side images showing apparent brightness and topography. The trough encircles most of Vesta and is located just south of the equator. It is about 10 kilometers (6 miles) wide. Rubria and Occia craters straddle Divalia Fossa. The image was snapped on Oct 16, 2011 from an altitude of 700 km (435 mi) from the HAMO mapping orbit. Image Credit: NASA/ JPL-Caltech/ UCLA/ MPS/ DLR/ IDA

“NASA’s Dawn mission to Asteroid Vesta is going exceptionally well”, Dr. Marc Rayman, the mission’s Chief Engineer, told Universe Today in an exclusive interview as the revolutionary spacecraft nears the end of its more than 1 year long super science survey orbiting the giant space rock.

“The Dawn mission is not only going better than we had expected but even better than we had hoped.”

Dawn is Earth’s first mission ever to orbit and explore Vesta up close.

“We have acquired so much more data than we had planned even in late 2011! We have conducted a tremendous exploration of Vesta – the second most massive body between Mars and Jupiter, a giant of the main asteroid belt.”

“Now we are in our second high altitude mapping orbit (HAMO2), which is the final intensive campaign of the Vesta mission,” Rayman told me.

Image Caption: Dawn Orbiting Vesta above the “Snowman” craters. This artist’s concept shows NASA’s Dawn spacecraft orbiting the giant asteroid Vesta above the Snowman craters. The depiction of Vesta is based on images obtained by Dawn’s framing cameras. Dawn is an international collaboration of the US, Germany and Italy. Credit: NASA/JPL-Caltech

Indeed Dawn’s science and maneuvering endeavour’s at Vesta have proceeded so flawlessly that NASA has granted the science team a bonus of 40 days additional time in orbit split between the lower and higher science orbits known as LAMO and HAMO or the Low Altitude Mapping Orbit and the High Altitude Mapping Orbit respectively.

“Our original Vesta departure date was July 17, and now it is about August 26.” Rayman explained.

The bonus time at LAMO has already been completed. Now the team is about to begin the bonus time at HAMO – consisting of two additional mapping cycles beyond the four originally planned.

Each mapping cycle in HAMO2 consists of 10 orbits. Each orbit is about 12.5 hours.

“On July 14, we will complete mapping cycle 4 and begin 5 (of 6). On July 25 we will leave HAMO2 and escape from orbit on August 26. We will stop thrusting several times before escape to take more neat pictures, mostly of the northern hemisphere,” Rayman told me.

“As Dawn revolves, Vesta rotates on its axis beneath it, turning once every 5.3 hours.”

When Dawn arrived in orbit at Vesta in July 2011 the northern polar region was in darkness as the southern hemisphere basked in summer’s glow. Now as Dawn departs Vesta in August, virtually all of the previously unseen and unphotographed northern polar region is illuminated and will be mapped in exquisite detail.

Coincidentally on July 13/14 as HAMO2 Cycle 4 ends, I’ll be presenting a free public lecture about Dawn and NASA’s Planetary and Human Spaceflight programs at the Adirondack Public Observatory.

Image Caption: Asteroid Vesta and Mysterious Equatorial Grooves – from Dawn Orbiter. This full view of the giant asteroid Vesta was taken by NASA’s Dawn spacecraft on July 24, 2011, at a distance of 3,200 miles (5,200 kilometers). This view shows impact craters of various sizes and mysterious grooves parallel to the equator. The resolution of this image is about 500 meters per pixel. Credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA

Why has Dawn been granted an extended mission ?

“Dawn has gone so well that we had consumed not even one day of our 40 days of operations margin,” Rayman stated .

“That allowed us to spend more time in LAMO. We had had some unexpected events to be sure, but we managed to deal with all of them so expeditiously that the entire margin remained intact. Then we received the (entirely unrelated) 40 day extension, which allowed us to leave Vesta later. That came about because of our being able to shorten the flight from Vesta to Ceres, so we could still reach Ceres on schedule in 2015.”

“That 40 days allowed us to spend still ~ 30 more days in LAMO and increase HAMO2 by 10 days to a total of six cycles. We got still more time by finding ways to make the trip from HAMO2 to escape a little more efficiently, and that’s what allowed HAMO2 to be even longer, with the additional eight days of VIR-only observations I described in my most recent Dawn Journal.”

“The summary is that every investigation has been more productive than we could have imagined, and because the exploration of Vesta has gone so well, we have been able to apply our unused margin to get even more out of the mission. It is very very gratifying and exciting.”

So we have a few more weeks to enjoy the wondrous sights of Vesta before Dawn fires up her revolutionary ion thrusters to escape the gravitational tug of Vesta and head off to the dwarf planet Ceres, the largest asteroid in the main belt of our Solar System – and which some have speculated may hold vast caches of water and perhaps even liquid oceans suitable for sustaining life.

Ken Kremer

…..
July 13/14: Free Public Lectures about NASA’s Mars, Vesta and Planetary Exploration, the Space Shuttle, SpaceX , Orion and more by Ken Kremer at the Adirondack Public Observatory in Tupper Lake, NY.

Posted on by Jason Major

JPL Wants To FINESSE Info From Exoplanets

FINESSE would observe exoplanets from a position in low-Earth orbit (NASA/JPL-Caltech)


Jet Propulsion Laboratory’s proposed FINESSE space telescope may not hunt for exoplanets, but it will find out what they’re made of.

Part of NASA’s Explorers program, FINESSE — which stands for (take a deep breath) Fast INfrared Exoplanet Spectroscopy Survey Explorer — would gather spectroscopic data from 200 known exoplanets over a two-year period, helping scientists to determine the composition of their atmospheres, surfaces, and even their weather.

While huge discoveries have been made by both ground- and space-based telescopes like Kepler and Corot over the past several years, identifying thousands of exoplanetary candidates, FINESSE will be the first mission dedicated to finding out what the atmospheres are like on worlds outside our solar system.

Using a sensitive spectrograph covering 0.7-5.0 microns, FINESSE will be able to identify molecular bands of water, methane, carbon monoxide, carbon dioxide, and other molecules. Its sensitivity and stability will even allow it to detect the differences between an exoplanet’s day and night side, allowing wind flow and weather to be determined.

Known as an Offner spectrometer, the design of the FINESSE detector is derived from the Moon Mineralogy Mapper instrument, which was designed at JPL and flew to the Moon aboard India’s Chandrayaan-1 spacecraft.

[/caption]

Touted as “the next step” in exoplanetary exploration, FINESSE is proposed for launch in October 2016.

Learn more at JPL’s FINESSE site here.

“FINESSE is the next step in humankind’s journey of understanding our place in the cosmos.”

– Mark Swain, principal investigator for FINESSE

Posted on by Ken Kremer

Outer Space – Mind Blowing Video from Jupiter and Saturn

Video Caption: This mesmerizing video unveils incredibly amazing sequences around Jupiter and Saturn from NASA’s Cassini and Voyager missions set to stirring music by “The Cinematic Orchestra -That Home (Instrumental)”. Credit: Sander van den Berg

Don’t hesitate 1 moment ! Look and listen to this mind blowing video of the Jupiter and Saturnian systems.

If you love the wonders of the hitherto unknown Universe unveiled before your eyes – and long to explore – feast your eyes on this short new video right now titled simply; “Outer Space”. Continue reading “Outer Space – Mind Blowing Video from Jupiter and Saturn”