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 Elizabeth Howell

Google’s 5 Most Memorable Space Doodles

Google’s one of those tech companies that makes a big deal about space exploration.

There’s not only the Google Lunar X-Prize, or its maps of the Moon and Mars, or memorable April Fool’s pranks such as the lunar Google Copernicus Hosting Environment and Experiment in Search Engineering (G.C.H.E.E.S.E.)

The Mountain View, Calif.-based search giant often puts space front and center in its periodic “Google Doodles”, which are variations of its logo shown on the site. Google’s been pencilling those since 1998. Over the years the sketches have become more elaborate – and sometimes animated!

After reviewing the space doodles featured on Google’s Doodle site, here are five of the most memorable of them:

May 1-5, 2000 – Google Aliens series

 

This appears to be the first set of space-themed Google Doodles. The drawings are simple – for the most part, they show a UFO flying past or landing on the Google logo. Still, running them in a series over several days was smart, as it encouraged Internet users to visit the young search engine several days in a row to see what was happening next. More eyes on the page is always good for advertising.

Jan. 15, 2004 – Spirit lands on Mars

Mars landings are always big media events, and NASA was in the midst of a bonanza of attention in 2004 as both Spirit and Opportunity successfully touched down on the Red Planet. Thousands of Google users would have been searching out the rovers’ latest exploits. Commemorating Spirit’s landing in a doodle, just as that excitement was at a fever pitch, was a great way for Google to highlight the ability for users to seek out information about the rovers on its own site.

Aug. 9, 2010 – Anniversary of Belka and Stelka spaceflight

The best Google Doodles are those that show you what you don’t know before. In this case, few outside the space community are likely aware of who Belka and Stelka were, and where their spaceflight fits in history. (They were among a series of animal flights flown in the 1960s to determine the risks of space travel to humans.) From Google’s perspective, running a doodle one needs to learn more about encourages users to click on it, generating more page views.

June 15, 2011 – Total lunar eclipse, featuring Slooh

This is a brilliant example of cross-promotion. Astronomy geeks are well-aware of Slooh, a site that turns telescopes to celestial events such as the recent Venus transit of the sun. Google brought the site to the masses through promoting Slooh’s June 15, 2011 lunar eclipse feed right on the home page; the colour of the moon in the logo changed as the eclipse progressed. Google also showed the eclipse on its YouTube channel and on Google Earth, and promoted the Slooh Android app (also hosted by Google.) Slooh mentioned Google’s participation on its own website, too.

Nov. 8, 2011 – Edmond Halley’s birthday

Commemorating Edmond Halley’s birthday is not unique in itself, as Google has singled out other astronomers for the honour – see Ruby Payne-Scott and Johann Gottfried Galle, for example. What makes this sketch memorable is you can barely see the “Google” logo in the doodle. This is a company that is so confident in its brand that it is willing to let its readers fill in the blanks by imagination. (Astute readers will notice Scott’s doodle follows the same principle, but Halley’s doodle did run first.)

What other doodles should Universe Today readers check out? Share your thoughts in the comments.

All images are from Google’s Doodle website.

Elizabeth Howell (M.Sc. Space Studies ’12) is a contributing editor for SpaceRef and award-winning space freelance journalist living in Ottawa, Canada. Her work has appeared in publications such as SPACE.com, Air & Space Smithsonian, Physics Today, the Globe and Mail, the Canadian Broadcasting Corp.,  CTV and the Ottawa Business Journal.

Posted on by Nancy Atkinson

Inspiring Video: The Biological Advantage of Being Awestruck

How many times a week do we use the word “awesome” here on Universe Today? While we haven’t kept track, we admit it’s quite often. We feel privileged to be able to share with you the incredible — yes, awesome — images, videos and stories of our exploration of space. And it turns out, being awestruck could actually be good for us.

“Our ability to awe was biologically selected for us by evolution because it imbues our lives with a sense of cosmic significance that has resulted in a species that works harder not just to survive but to flourish and thrive,” writes filmmaker Jason Silva, who has produced this awesome new video about being awestruck.

Based on three different researcher’s work, Silva’s film highlights how having regular experiences of awe makes us feel good, provides a reason to live and love, spurs us to keep exploring and pushing onward, and provides an “unprecedented expansion of human vision.” The video shows many images from space, especially pictures produced by the Hubble Space Telescope, and Silva told Universe Today that this video is actually dedicated to the HST.

Sit back and enjoy the wonder of being awestruck!

Caption: A firestorm of star birth in the active galaxy Centaurus A. Credit: NASA, ESA, and the Hubble Heritage (STScI/AURA)-ESA/Hubble Collaboration

The Biological Advantage of Being Awestruck – by @Jason_Silva from Jason Silva on Vimeo.

Posted on by Ken Kremer

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

Video Caption: Star Trek’s Captain Kirk, actor William Shatner, guides viewers through the video titled, “Grand Entrance,” showing NASA’s Curiosity Mars Science Lab mission from atmospheroic entry through descent, and after landing on the Red Planet on August 6 2012.

As NASA engineers and scientists make final preparations for the Red Planet landing of NASA’s most difficult planetary science mission to date – the Curiosity Mars Science Lab – inside Gale Crater on the night of August 5/6, Star Trek actors William Shatner and Wil Wheaton lend their voices to a pair of new mission videos titled “Grand Entrance”

The video duet describes the thrilling story of how Curiosity will touch down on Mars and guides viewers through the nail biting “7 Minutes of Terror” – from entry into the Martian atmosphere at over 13,000 MPH and then how the rover must slow down through descent, set down for a soft and safe landing and ultimately how Curiosity will search for signs of life. Continue reading “Curiosity’s Grand Entrance with Star Trek’s William Shatner and Wil Wheaton – Video Duet”

Posted on by Elizabeth Howell

Red-Shirt Risk: How Likely Is It That You’ll Die?

Remember that moment in the movie Star Trek (2009) when James T. Kirk, Hikaru Sulu and the red-shirted Engineer Olson don spacesuits, and free-style plummet from orbit to a giant machine threatening the planet below?

For those who didn’t see it: We hate to ruin the surprise for you, but … Olson didn’t make it. It was an homage to an old joke stemming from Star Trek‘s original series (1966-69). In that show, anonymous crew members in red shirts frequently died to demonstrate how risky a certain voyage was to the main cast.

How statistically accurate is that assertion of red shirts dying more often than others? One Star Trek geek – who happens to deal in analytics for a living – put it to the test.

His analysis says 73% of deaths in that series were red-shirted crew members. If you’re gonna die, he adds, there’s a better-than-even chance that will happen if you’re a part of a landing party.

“Besides not getting involved in fights, which usually proved fatal, the crewmen could avoid beaming down to the planet’s surface, which is inherent to their end,” wrote Matt Bailey, president of SiteLogic, an online marketing consultancy based in Ohio.

So the answer is simple, it appears: Refuse to leave the spacecraft. But in Star Trek‘s military-like universe, it’s not that easy. “That could result in a court-martial for failure to obey orders,” Bailey added.

So it’s jail, or death. Quite the choice.

Bailey then continues his analysis on the best chances for red-shirt survival (hint: it has to do with Captain Kirk’s frequent romantic dalliances – which raises the survival rate by 84%) and how best to present the data on Star Trek deaths.

Bailey’s post is more than five years old, but still an entertaining read for Star Trek fans and statistics geeks alike.

Lead image courtesy of Star Trek Inspirational Posters.

Elizabeth Howell (M.Sc. Space Studies ’12) is a contributing editor for SpaceRef and award-winning space freelance journalist living in Ottawa, Canada. Her work has appeared in publications such as SPACE.com, Air & Space Smithsonian, Physics Today, the Globe and Mail, the Canadian Broadcasting Corp.,  CTV and the Ottawa Business Journal.

Posted on by Ken Kremer

Curiosity Completes Crucial Course Correction – 1 Week from Mars !

Image Caption: Course correcting thruster firings on July 29 successfully placed Curiosity on target to touchdown beside Mount Sharp inside Gale Crater on Mars on Aug 6 in search of signs of a habitable environment. Credit: NASA

Now just 1 week out from landing beside a 3 mile high (5 km) layered Martian mountain in search of life’s ingredients, aiming thrusters aboard the cruise stage of NASA’s car sized Curiosity Mars Science Lab successfully fired to set the rover precisely on course for a touchdown on Mars at about 1:31 a.m. EDT (531 GMT) early on Aug. 6 (10:31 p.m. PDT on Aug. 5).

Two precise and brief thruster bursts lasting about 7 seconds were successfully carried out just hours ago earlier today at 1 a.m. on July 29, EDT (10 p.m. PDT on July 28). The effect was to change the spacecraft’s velocity by about 1/40 MPH or 1 cm/sec as it smashes into Mars at about 13,200 mph (5,900 meters per second).

This was the fourth and possibly last of 6 interplanetary Trajectory Correction Manuevers (TCM’s) planned by mission engineers to steer Curiosity since departing Earth for the Red Planet.

If necessary, 2 additional TCM’s could be implemented in the final 48 hours next Saturday and Sunday before Curiosity begins plunging into the Martian atmosphere late Sunday night on a do or die mission to land inside the 100 mile wide Gale Crater with a huge mountain in the middle. All 6 TCM maneuvers were preplanned long before the Nov 26, 2011 liftoff from Cape Canaveral, Florida.

Without this course correction firing, MSL would have hit a point at the top of the Martian atmosphere about 13 miles (21 kilometers) east of the target entry point. During the preprogrammed Entry, Descent and Landing (EDL) sequence the vehicle can steer itself in the upper atmosphere to correct for an error amounting to a few miles.

On landing day, MSL can steer enough during its flight through the upper atmosphere to correct for missing the target entry aim point by a few miles and still land on the intended patch of Mars real estate. The mission’s engineers and managers rated the projected 13-mile miss big enough to warrant a correction maneuver.

“The purpose of this maneuver is to move the point at which Curiosity enters the atmosphere by about 13 miles,” said Tomas Martin-Mur of NASA’s Jet Propulsion Laboratory, Pasadena, Calif., chief of the mission’s navigation team. “The first look at telemetry and tracking data afterwards indicates the maneuver succeeded as planned.”


Image Cation: 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

As of today (July 30), Curiosity has traveled about 97% of the overall journey to Mars or about 343 million miles (555 million kilometers) of its 352-million-mile (567-million-kilometer) total flight distance.

“I will not be surprised if this was our last trajectory correction maneuver,” Martin Mur said of the TCM-4 firing. “We will be monitoring the trajectory using the antennas of the Deep Space Network to be sure Curiosity is staying on the right path for a successful entry, descent and landing.”

Curiosity will use an unprecedented rocket powered descent stage and a helicopter like sky crane to set down astride the sedimentary layers of Mount Sharp.

She will then conduct a minimum 2 year prime mission with the most sophisticated science instrument package ever dispatched to Mars to determine if a habitable zone ever existed on this region of Mars.

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.

As Curiosity dives down to Mars surface on Aug. 6, 3 spacecraft from NASA and ESA are now positioned in orbit around the Red Planet and are ready to relay and record signals from the “7 Minutes of Terror” – Read the details in my article – here

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

Europe’s Plans to Visit the Moon in 2018

The European Space Agency is aiming for the Moon with their Lunar Lander mission, anticipated to arrive on the lunar surface in 2018. Although ESA successfully put a lander on Titan with the Huygens probe in 2005, this will be the first European spacecraft to visit the surface of Earth’s Moon.

Although Lunar Lander will be an unmanned robotic explorer, the mission will be a forerunner to future human exploration of the Moon as well as Mars. Lunar Lander will use advanced technologies for autonomous landing and will be able to determine the best location for touchdown on its own, utilizing lasers to avoid obstacles on the Moon’s surface.

With no GPS on the Moon, Lunar Lander will navigate by digitally imaging the surface on the fly. Landing will be accomplished via thrusters, which were successfully tested earlier this year at a test chamber in Germany.

Lunar Lander’s destination will be the Moon’s south pole, where no exploration missions have ever landed. Once on the lunar surface, the Lander will investigate Moon dust using a robotic arm and a suite of onboard diagnostic instruments, sending data and images back to scientists on Earth for further study.

Watch a video of the Lunar Lander mission below, from launch to landing.

Read more about Lunar Lander on the ESA site here.

Images and video: ESA

Posted on by Jason Major

Independent Filmmaker Wants to Kickstart America’s Space Program

“If Kennedy said ‘we will go to the Moon…some time before the century ends,’ what is… what is that? That’s not ambition. That’s pandering.”
– Neil deGrasse Tyson, Fight for Space

Here we are on the 43rd anniversary of the Apollo Moon landing, with no more shuttles flying, slashed space program budgets and no real targeted plan to get people off this world and onto another. American students score abysmally in science and math, and the general public thinks NASA is dead. What’s happened to America’s drive? What’s happened to the nation’s sense of wonder, its devotion to science, engineering, education and its man-on-the-Moon motivation?

Film producer Paul Hildebrandt wants to find out. But he needs your help.

Hildebrandt and his team from Eventide Visuals in Chico, CA, are creating an independent feature-length documentary about America’s space program, called “Fight for Space”. It’s not a collection of launch videos and CGI solar system shots, though; Hildebrandt is digging deeper into what originally made the U.S. space program great — and what has happened to it since then.

“We are producing a documentary that will examine the reasons why our space program is not all it can be. We are also going to show that space IS worth the time, money, and energy that it needs, not for only exploration and scientific reasons but for economic, planetary security, and cultural reasons as well,” writes Hildebrandt.

Hildebrandt has been attending space symposiums and traveling to interview key figures in science and space outreach, like Neil deGrasse Tyson, Bill Nye, Robert Zubrin and Congressman Dana Rohrabacher. He’s talked with scientists, astronauts, educators and regular everyday Americans about the importance of the space program. But in order for the Fight to continue, he needs our help.

Fortunately, that’s what Kickstarter is here for. Fight for Space is looking to get a little backing from interested and like-minded space fans to keep the process moving, and hopefully see the film become a fully produced, publicized, and possibly broadcasted reality.

“With your help we can bring awareness to this issue and come closer to making our space program a priority for this country once again.”

You can pledge any amount, from $10 to $10,000 or more (and see the incremental rewards of doing so) on the Fight for Space Kickstarter page here, and visit the Fight for Space website here.

“Please, support our film by donating above and share this project with your friends, family, and anyone you know who cares about space exploration or cares about the future economic and national security of this country.”
– Paul Hildebrandt, Fight for Space producer