Posted on by Nancy Atkinson

Lunar Exploration Company Offers the Public a Chance to Participate

Golden Spike: more human bootprints on the Moon, and you can help. Credit: Golden Spike.

Last December, when a private space exploration company named Golden Spike announced they are working to offer human expeditions to the Moon by 2020, they also said wanted to bring public along as an integral part of the company’s mission. Since their initial announcement, the Golden Spike team says they’ve been inundated with emails, letters and social media posts from people wanting to know how to take part, and how they could help speed the development of human lunar expeditions.

Today, The Golden Spike Company — which hopes to generate sustainable human lunar exploration with a series of commercial expeditions for nations, corporations, and individuals — began a 10-week Indiegogo crowdfunding campaign to enable a “participatory exploration program.” This isn’t funding the building of rockets and spaceships directly, but does allow the public to help the company accelerate their efforts.

“The funds will enable us to launch our participatory exploration program, which is more than just the perks people get for making a donation,” said Golden Spike President and CEO Dr. Alan Stern in an email to Universe Today. “It involves apps, membership, media productions, and more, and that effort is intended to become self-sustaining after we jump-start it with Indiegogo.”

Stern said funds from the Indiegogo campaign will also be used for other activities in Golden Spike.

“We’re building a program that is about connecting people to lunar exploration,” he said, “and when we had people keep telling us they want to help fund us to help get us to the Moon, we’re really excited about that. But while our major funding will, of course come from sales and investment, this gives people a sense of participation too.”

The company is looking to raise $240,000 – a dollar for every mile from the Earth to the Moon.

“The drive aims to raise awareness about Golden Spike, accelerate Golden Spike’s plans for innovative public participation in its activities, and give the global community of space enthusiasts and the general public a chance to help fuel Golden Spike’s human Lunar exploration mission,” says the Golden Spike team on their Indiegogo page.

“We hope that this campaign and all the projects it enables will generate a degree of participation in space exploration that has never existed before” said Gerry Griffin, former Apollo Flight Director and the Chairman of Golden Spike’s Board of Directors.

Those participating in the crowdfunding campaign will become Golden Spike ‘insiders,’ with an Olympics Movement-style membership program for children and adults. “We want to make it possible for people to follow Golden Spike’s development and space missions just like people follow Hollywood, NASCAR, and professional sports,” said Stern.

Some of the perks of donating include receiving reconnaissance images of potential landing sites, having the chance to vote on where missions should land on the Moon, and having your name and a short message left on the Moon. Big donors would receive trips to launches of missions to the Moon.

But to get the Moon yourself via Golden Spike, you’ll have to foot the $1.5 billion price tag for a two-person lunar mission.

The Golden Spike Company was started by a group of former NASA engineers and spaceflight experts, looks to provide services such as vehicles, mission planning, mission ops, and crew training to create a reliable and affordable lunar exploration system that will be U.S. based

Stern said they will not build new hardware but adapt crew capsules already in development and use existing infrastructure and launchers. However, they are looking to developing their own lunar spacesuits and lunar landers.

Their tentative plan is to use a series of launches where the first launch sends a lunar lander to orbit the Moon and a second launch brings the crew, which will then dock with the lander and head to the Moon.

Stern said their costs per flight are not much higher than some recent robotic lunar missions that have been flown and they will offset their costs with spaceship naming rights, media rights, and other enticements. They already have companies involved, such as United Launch Alliance, Armadillo Aerospace, Masten Space Systems, and have brought several investors on board.

Golden Spike’s website

The Indiegogo page for Golden Spike

A proposed Golden Spike lunar lander on the Moon. Credit: Golden Spike Company
A proposed Golden Spike lunar lander on the Moon. Credit: Golden Spike Company
Posted on by Ken Kremer

Deep Impact Images Spectacular incoming Comet ISON – Curiosity & NASA Armada Will Try

Image Caption: This image of comet ISON (C/2012 S1) ) from NASA’s Deep Impact spacecraft clearly shows the coma and nucleus on Jan. 17/18, 2013 beyond the orbit of Jupiter. See the dramatic new movie sequence below. It combines all 146 80-second clear filter exposures for a total integration time of 11680 seconds (about 3.25 hours). Individual frames were shifted to align the comet at the center before coadding. By keeping the comet centered and adding all of the images together, the stars effectively get smeared so the long streaks are the trails of background stars. Some have called it the “Comet of the Century.” Credit: NASA

NASA’s legendary Deep Impact comet smashing spacecraft has just scored another major coup – Imaging the newly discovered Comet ISON. The comet could possibly become one of the brightest comets ever late this year as it passes through the inner Solar System and swings around the Sun for the very first time in history – loaded with pristine, volatile material just raring to burst violently forth from the eerie surface, and is therefore extremely interesting to scientists. See the Movie below

“Comet ISON was just imaged by Deep Impact out by Jupiter on Jan. 17 and 18,” said Dr. Jim Green, Director of NASA Planetary Sciences at NASA HQ, in an exclusive interview with Universe Today on the campus of Princeton University. “We will try to look at ISON with the Curiosity rover as it flies past Mars, and with other NASA assets in space [along the way]. It should be spectacular!”

“We are all, ops team and science team, thrilled that we were able to make these observations when the comet was still more than 5 AU from the sun,” said Deep Impact Principal Investigator Prof. Michael A’Hearn of the University of Maryland, in an exclusive interview with Universe Today.

ISON could potentially become the next “Great Comet”, according to NASA. Deep Impact is the first spacecraft to observe ISON.

“We are continuing to observe ISON – it is observable from Deep Impact into mid-March 2013,” A’Hearn told me.

ISON will be the 4th comet observed by Deep Impact. On July 4, 2005 the spacecraft conducted a close flyby of Comet Tempel 1 and delivered a comet smashing impactor that made headlines worldwide. Next, it flew near Hartley 2 in Nov. 2010. In January 2012, the spacecraft performed a long distance imaging campaign on comet C/2009 P1 (Garradd). And it has enough fuel remaining for an Asteroid encounter slated for 2020 !

NASA’s assets at Mars should be able to observe ISON because it will fly really, really close to Mars!” Green said with a big smile – and me too, as he showed me a sneak preview of the brand new Deep Impact movie.

“ISON observations are in the cue for Curiosity from Mars surface and from orbit with NASA’s Mars Reconnaissance Orbiter (MRO) – and we’ll see how it works out. It should be pretty spectacular. We will absolutely try with Curiosity’s high resolution Mastcam 100 camera.”

“LRO (NASA’s Lunar Reconnaissance Orbiter) also has a good shot at ISON.”

“Because of the possibility of observations of for example ISON, with probes like Deep Impact is why we want to keep NASA’s [older] assets viable.”

146 visible light images snapped by Deep Impact just days ago on Jan. 17 and 18, have been compiled into a dramatic video showing ISON speeding through interplanetary space back dropped by distant star fields – see above and below. The new images were taken by the probes Medium-Resolution Imager (MRI) over a 36-hour period from a distance of 493 million miles (793 million kilometers).

“A composite image, combining all of the Jan 17/18 data – after cleaning up the cosmic rays and improving the S/N (signal to noise ratio) clearly shows the comet has a coma and tail,” said Tony Farnham, a Deep Impact research scientist at the University of Maryland, to Universe Today.

Video Caption: This series of images of comet C/2012 S1 (ISON) was taken by the Medium-Resolution Imager (MRI) of NASA’s Deep Impact spacecraft over a 36-hour period on Jan. 17 and 18, 2013. At the time, the spacecraft was 493 million miles (793 million kilometers) from the comet. Credit: NASA/JPL-Caltech/UMD

ISON is a conglomeration of ice and dust and a long period, sun-grazing comet.

“It is coming in from the Solar System’s Oort cloud at the edge of the Solar System”, said Green, and was likely disturbed out of its established orbit by a passing star or other gravitational effects stemming from the Milky Way galaxy. “It will pass within 2.2 solar radii during perihelion and the Sun will either blast it apart or it will survive.”

Despite still being in the outer Solar System and a long distance from the Sun, ISON is already quite “variable” said A’Hearn, and it’s actively spewing material and ‘outgassing”.

The tail extending from the nucleus was already more than 40,000 miles (64,400 kilometers) long on Jan. 18. It’s a science mystery as to why and the Deep Impact team aims to try and determine why.

In addition to imaging, Deep Impact will also begin collecting long range spectral observations in the next week or so to help answer key questions.

“In mid-February, the solar elongation will allow IR (infrared) spectra for a few weeks,” A’Hearn elaborated.

“The 6-7% variability that we observed in the first day of observing shows that there is variable ‘outgassing’, presumably modulated by rotation of the nucleus. We hope to pin down the rotational period with the continuing images.”

“The interesting question is what drives the outgassing!”

Since ISON is still a very great distance away at more than 5 AU, data collection will not be an easy task. The comet is 5.1 AU from the Sun and 5.3 AU from Deep Impact. And the mission could also be imperiled by looming slashes to NASA’s budget if the Federal sequester actually happens in March.

“Getting spectra will be a real challenge because, at these large heliocentric and geocentric distances, the comet is really faint. However, maybe we can test whether CO2 is driving the outgassing,” Ahearn explained.

“Since we have the only facility capable of measuring CO2, it will be important to observe again in our second window in July-August, but that depends on NASA finding a little more money for us.”

“We, both the ops team and the science team, are funded only for the observations through March,” A’Hearn stated.

Although observing predictions for the brightness of comets are sometimes notoriously wrong and they can fade away precipitously, there is some well founded hope that ISON could put on a spectacular sky show for observers in both the northern and southern hemispheres.

The comet will continue to expand in size and grow in brightness as it journeys inward.

“ISON might be pretty spectacular,” said Green. “If things work out it might become bright enough to see during the day and be brighter than the Moon. The tail might be 90 degrees.”

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Image caption: This is the orbital trajectory of comet C/2012 S1 (ISON). The comet is currently located just inside the orbit of Jupiter. In November 2013, ISON will pass less than 1.1 million miles (1.8 million kilometers) from the sun’s surface. The fierce heating it experiences during this close approach to the sun could turn the comet into a bright naked-eye object. Credit: NASA/JPL-Caltech

The best times to observe the comets head and growing tail will be from Nov. 2013 to Jan. 2014, if it survives its closest approach to the Sun, known as perihelion, on Nov. 28, 2013 and doesn’t break apart.

There’s no need to worry about doomsday predictions from conspiracy theorists. At its closest approach next Christmas season on Dec. 26, 2013, ISON will pass by Earth at a safe distance of some 40 million miles.

A pair of Russian astronomers only recently discovered the comet on Sept. 21, 2012, using the International Scientific Optical Network’s 16-inch (40-centimeter) telescope near Kislovodsk.

The study of comets has very important implications for understanding the evolution of not just the Solar System but also the origin of life on Earth. Comets delivered a significant portion of the early Earth’s water as well as a range of both simple and complex organic molecules – the building blocks of life.

Ken Kremer

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Image caption. Deep Impact images Comet Tempel 1 alive with light after colliding with the impactor spacecraft on July 4, 2005. CREDIT: NASA/JPL-Caltech/UMD

Posted on by Nancy Atkinson

Fly Over a Pristine Lunar Crater

Color coded shaded relief map of Linné crater (2.2 km diameter) created from an LROC NAC stereo topographic model. The colors represent elevations; cool colors are lowest and hot colors are highest. Credit: NASA/GSFC/Arizona State University.

Linné crater on the Moon is one of the youngest, most well-preserved lunar impact craters. This cone-shaped crater thought to be less than 10 million years old – a mere whippersnapper when it comes to impact craters. Scientists have been studying this crater for years, using it to investigate how cratering occurs in mare basalt. This “barnstorming” flyover video was created with data from the Lunar Reconnaissance Orbiter.

LRO helped discern the actual shape of this crater, and other craters too. It was once thought that the circular Linné crater was bowl-shaped, and that set a precedent for understanding the morphology of craters on the Moon, and also on Earth. But laser-mapping observations by NASA’s Lunar Reconnaissance Orbiter determined Linné is actually more of a truncated inverted cone, with a flattened interior floor surrounded by sloping walls that rise up over half a kilometer to its rim.

It’s a magnificent crater, and enjoy this unique chance to see it up close.

Posted on by Jason Major

There’s Poop on the Moon

When the Apollo boys visited the Moon back in the ’60s and ’70s they left more than just some experiments, rovers, and family portraits behind –- they also left, shall we say, a little bit of themselves on the lunar surface. It makes total sense when you think about it, but still… there’s poop on the Moon.

In this video, Minute Physics and Destin from Smarter Every Day show how astronauts would relieve themselves during the Apollo missions (or at least the gadgets they used — we all know how they did it) and why it was decided to make astronaut poop a permanent part of their lunar litter.

(Because there’s no public toilets in the Sea of Tranquility.)

In another video Destin goes on to discuss some of the other things the Apollo astronauts left on the lunar surface as part of their… duties… most notably the Laser Ranging Retroreflectors that are still being used today to measure distances between Earth and the Moon. Destin explains how their corner-cube reflectors work — using, fittingly, the mirrors in a restroom shared with NASA at the University of Alabama at Huntsville. Check out the video below.

According to the Lunar and Planetary Institute: “The Laser Ranging Retroreflector experiment has produced many important measurements. These include an improved knowledge of the Moon’s orbit and the rate at which the Moon is receding from Earth (currently 3.8 centimeters per year) and of variations in the rotation of the Moon. These variations in rotation are related to the distribution of mass inside the Moon and imply the existence of a small core, with a radius of less than 350 kilometers, somewhat smaller than the limits imposed by the passive seismic and magnetometer experiments. These measurements have also improved our knowledge of changes of the Earth’s rotation rate and the precession of its spin axis and have been used to test Einstein’s theory of relativity.”

Want to see how corner-cube reflectors work? Click here.

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The Laser Ranging Retroreflector experiment deployed on Apollo 11 (NASA)

Just goes to show that not everything that got left behind was crap.

See more videos from Destin at Smarter Every Day here and more Minute Physics here.

Posted on by Nancy Atkinson

Watch a Magical Moonrise

This is absolutely lovely. Photographer Mark Gee says this incredible real-time video “is as it came off the memory card and there has been no manipulation whatsoever.” It shows the full Moon rising over the Mount Victoria Lookout in Wellington, New Zealand.

“People had gathered up there this night to get the best view possible of the moon rising,” Gee wrote on Vimeo. “I captured the video from 2.1km away on the other side of the city. It’s something that I’ve been wanting to photograph for a long time now, and a lot of planning and failed attempts had taken place. Finally, during moon rise on the 28th January 2013, everything fell into place and I got my footage.”

While Gee said it was a challenge to shoot, the final result is stunning.

Full Moon Silhouettes from Mark Gee on Vimeo.

Posted on by Ken Kremer

NASA: Reaches for New Heights – Greatest Hits Video

Video Caption: At NASA, we’ve been a little busy: landing on Mars, developing new human spacecraft, going to the space station, working with commercial partners, observing the Earth and the Sun, exploring our solar system and understanding our universe. And that’s not even everything.Credit: NASA

Check out this cool action packed video titled “NASA: Reaching for New Heights” – to see NASA’s ‘Greatest Hits’ from the past year

The 4 minute film is a compilation of NASA’s gamut of Robotic Science and Human Spaceflight achievements to explore and understand Planet Earth here at home and the heavens above- ranging from our Solar System and beyond to the Galaxy and the vast expanse of the Universe.

Image caption: Planets and Moons in perspective. Credit: NASA

The missions and programs featured include inspiringly beautiful imagery from : Curiosity, Landsat, Aquarius, GRACE, NuSTAR, GRAIL, Dawn at Asteroid Vesta, SDO, X-48C Amelia, Orion, SLS, Apollo, SpaceX, Sierra Nevada Dream Chaser, Boeing CST-100, Commercial Crew, Hurricane Sandy from the ISS, Robonaut and more !

And even more space exploration thrills are coming in 2013 !

Ken Kremer

IMG_3760a_SpaceX launch 22 May 2012

Image caption: SpaceX Falcon 9 rocket blasts off on May 22, 2012 with Dragon cargo capsule from Space Launch Complex-40 at Cape Canaveral Air Force Station, Fla., on the first commercial mission to the International Space Station. The next launch is set for March 1, 2013. Credit: Ken Kremer

Posted on by Ken Kremer

NASA Stars at 2013 Presidential Inaugural Parade with Orion and Curiosity – Photos and Video

Image caption: Orion deep space crew capsule float passes in front of the White House at the Presidential Inaugural parade on Jan 21, 2013 in Washington, DC. Credit: NASA

NASA’s new Orion deep space crew capsule and sensational Curiosity Mars rover had starring roles at the 2013 Presidential Inaugural Parade held on Monday, Jan 21, 2013 in Washington D.C.

NASA photographers captured stunning photos and video (above and below) as Orion and Curiosity passed in front of the White House and the official reviewing stand – with President Obama & VP Joe Biden and their families and numerous dignitaries smiling and waving.

Beautiful weather shined though out the entire day’s festivities and into the early evening as full size models of Orion and Curiosity made their way thought the capitol streets to participate in the 2013 Inaugural parade.

NASA’s floats prominently placed near the front of the parade and seen on Live TV about 530 PM EDT as well as by about a million spectators on hand.

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Image caption: Curiosity Mars rover float passes in front of the White House and reviewing stand at the Presidential Inaugural parade on Jan 21, 2013 in Washington, DC. Credit: NASA

The fantastically successful Curiosity rover is discovering widespread evidence for the ancient flow of liquid water on Mars.

The Orion multi-purpose capsule will take our astronauts back to the Moon and farther into deep space than ever before.

NASA is the ONLY federal agency asked to be in the inaugural parade. Curiosity led the way followed by Orion.


Video of full-size models of the Curiosity Mars rover and Orion, the multi-purpose capsule that will take our astronauts farther into space than ever, as they appeared in the Washington, D.C. parade on Jan. 21.

Accompanying the NASA vehicles were members of the Curiosity team from NASA’s Jet Propulsion Laboratory, and current and former astronauts Alvin Drew, Serena Aunon, Kate Rubins, Mike Massimino, Lee Morin and Kjell Lindgren, as well as Leland Melvin, NASA’s associate administrator for Education, and John Grunsfeld, NASA’s associate administrator for Science.

Be sure to check out NASA’s Flickr stream for many photos from the 2013 Inaugural Day festivities and parade – here and here

See my preview story – here

Ken Kremer

Posted on by Nancy Atkinson

Astrophotos: Jupiter and the Moon Conjunction

The Galilean Satellites of Jupiter are clearly visible just above a halo around the Moon, seen over central Italy on January 21, 2013. Credit: Giuseppe Petricca

Last night, the Moon and Jupiter snuggled up in the sky, coming within 29 arcminutes of each other. This will be the closest conjunction of these two bodies in the sky until 2026. The waxing gibbous Moon and the gas giant planet made for a great pair in the western night sky, and some astrophotographers, like Giuseppe Petricca in the image above, were also able to capture some of the Moons of Jupiter as well.

See more images from around the world, below.

Jupiter and the Moon 1-21-13. The Moon is intentionally overexposed so you can see three moons. Ganymede on the left and Io and Callisto on the right (Europa was transiting at the time). Credit and copyright: Robert Sparks.
Jupiter and the Moon 1-21-13. The Moon is intentionally overexposed so you can see three moons. Ganymede on the left and Io and Callisto on the right (Europa was transiting at the time). Credit and copyright: Robert Sparks.
Moon & Jupiter Conjunction, January 21, 2013. Quick 2-frame collage of this remarkable conjunction between our Moon and the giant planet. This was taken with a Canon EOS Rebel T2i DSLR and a Celestron C90 Maksutov-Cassegrain telescope. Credit an copyright: Gustavo Sanchez/Observatorio Guajataca.
Moon & Jupiter Conjunction, January 21, 2013. Quick 2-frame collage of this remarkable conjunction between our Moon and the giant planet. This was taken with a Canon EOS Rebel T2i DSLR and a Celestron C90 Maksutov-Cassegrain telescope. Credit an copyright: Gustavo Sanchez/Observatorio Guajataca.
Reflections over Lavender Bay, Sydney Australia, Jupiter and Moon conjunction. ‘By this point I had to leave the bay area but one last look back and I saw this frame, so I tried my best to capture it whilst the timer on my parking ticket was quickly running out.’ Credit and copyright: Carlos Orue (ourkind on Flickr.)
Reflections over Lavender Bay, Sydney Australia, Jupiter and Moon conjunction. ‘By this point I had to leave the bay area but one last look back and I saw this frame, so I tried my best to capture it whilst the timer on my parking ticket was quickly running out.’ Credit and copyright: Carlos Orue (ourkind on Flickr.)
Moon-Jupiter January conjunction. Taken with Nikon 55-300 + kenko 2X, 3 different shots for each body. Credit: Alejandro García (bokepacha on Flickr).
Moon-Jupiter January conjunction. Taken with Nikon 55-300 + kenko 2X, 3 different shots for each body. Credit and copyright: Alejandro García (bokepacha on Flickr).
Planet Jupiter vs. the Moon. The small orb on the lower left is the planet Jupiter visible near the moon in the night sky of January 21, 2013. Credit and copyright: Daniel Lowe/danieldragonfilms.com./IStockTimelapse.com
Planet Jupiter vs. the Moon. The small orb on the lower left is the planet Jupiter visible near the moon in the night sky of January 21, 2013. Credit and copyright: Daniel Lowe/danieldragonfilms.com./IStockTimelapse.com
In some areas of South America, the conjunction actually became an occultation. This picture captures the moment when about half of Jupiter was behind the (dark part of) the disk of the Moon. Credit and copyright: Sergio Gorbach, Buenos Aires, Argentina.
In some areas of South America, the conjunction actually became an occultation. This picture captures the moment when about half of Jupiter was behind the (dark part of) the disk of the Moon. Credit and copyright: Sergio Gorbach, Buenos Aires, Argentina.

Sergio Gorbach, from Buenos Aires, Argentina sent us this image, showing how he was in a region where the conjunction turned into an occulation. “This captures the moment when about half of Jupiter was behind the dark part of the disk of the moon,” Sergio wrote via email. “On the scope three of the Galilean moons where visible, but not on this picture, unfortunately. The picture quality is not great since they were taken by a smartphone held by hand in front of the eyepiece of my (cheap) telescope, but the resulting image is not that bad.”

Not bad indeed!

Jupiter and the Moon over London, England on January 21, 2013. Credit and copyright: Sculptor Lil on Flickr.
Jupiter and the Moon over London, England on January 21, 2013. Credit and copyright: Sculptor Lil on Flickr.
Jupiter and the Moon. Hooligan handhelded shot series with EF-S 60 mm f/2.8 macro lens. Credit and copyright: Sergei Golyshev.
Jupiter and the Moon. Hooligan handhelded shot series with EF-S 60 mm f/2.8 macro lens. Credit and copyright: Sergei Golyshev.
Luna con Jupiter -- as seen from Spain. Credit and copyright: Jordi Villanueva Alberich.
Luna con Jupiter -- as seen from Spain. Credit and copyright: Jordi Villanueva Alberich.
Moon/Jupiter Conjunction - 21st January 2013. Canon EOS Rebel T3, f5.6, 1/4000 sec. ISO 6400, 300mm. Credit and copyright: Apple Lily.
Moon/Jupiter Conjunction - 21st January 2013. Canon EOS Rebel T3, f5.6, 1/4000 sec. ISO 6400, 300mm. Credit and copyright: Apple Lily.
Moon and Jupiter conjunction Jan. 21, 2013. Two exposures back to back to compensate for the exposure differences. Credit and copyright: jimnista on Flickr.
Moon and Jupiter conjunction Jan. 21, 2013. Two exposures back to back to compensate for the exposure differences. Credit and copyright: jimnista on Flickr.
This is a collage of three photos, all taken on January 21, 2013: one of the Moon and Jupiter, another focusing on Jupiter’s Moons (both with a Canon Rebel T2i), and another through an 8 inch Dobsonian telescope of Jupiter, which was scaled to size and overlayed on Jupiter to provide some detail. ‘The moons are obviously not to scale because they are out of focus, I think it makes the photo a bit more dramatic,’ said photographer Chris Gorman.
This is a collage of three photos, all taken on January 21, 2013: one of the Moon and Jupiter, another focusing on Jupiter’s Moons (both with a Canon Rebel T2i), and another through an 8 inch Dobsonian telescope of Jupiter, which was scaled to size and overlayed on Jupiter to provide some detail. ‘The moons are obviously not to scale because they are out of focus, I think it makes the photo a bit more dramatic,’ said photographer Chris Gorman.
Who says you can't enjoy the night sky even in Urban areas! This photo of Jupiter and the Moon in close proximity was taken in the light polluted suburbs of Atlanta, Georgia. This photo is one shot - not a collage! Credit and copyright: Dave Hudson.
Who says you can't enjoy the night sky even in Urban areas! This photo of Jupiter and the Moon in close proximity was taken in the light polluted suburbs of Atlanta, Georgia. This photo is one shot - not a collage! Credit and copyright: Dave Hudson.

Dave Hudson took this great shot on Tuesday, January 21, 2013 @ 10:32pm EST.
Camera and Telescope: Celestron C8 on a Celestron CG5 EQ mount
Canon 60D using Eyepiece projection with MAXIM adapter and Celestron .63 Focal Reducer
17mp picture, ISO 100, 1/60 second exposure, no filters
Telescope: 203.2 mm aperture, 2000mm focal length, F10 – reduced to F6.3 using Celestron Focal Reducer

Jupiter-Moon Conjunction, Jan 21, 2013 from San Diego, California. Shot with a Fuji Finepix 2000hd. Credit and copyright: Bob Gould.
Jupiter-Moon Conjunction, Jan 21, 2013 from San Diego, California. Shot with a Fuji Finepix 2000hd. Credit and copyright: Bob Gould.
Jupiter-Moon conjunction on January 21, 2013. Credit and copyright: Paul Latham. .
Jupiter-Moon conjunction on January 21, 2013. Credit and copyright: Paul Latham.
Jupiter-Moon conjunction 1/21/13 from Houston Texas. Credit and copyright: Chris Grabo.
Jupiter-Moon conjunction 1/21/13 from Houston Texas. Credit and copyright: Chris Grabo.

Want to get your astrophoto featured on Universe Today? Join our Flickr group or send us your images by email (this means you’re giving us permission to post them). Please explain what’s in the picture, when you took it, the equipment you used, etc.

Posted on by Ken Kremer

NASA’s Curiosity and Orion Shine at Presidential Inaugural Parade

Video caption: Preview of Mars Curiosity Parade Float. Jim Green, Director of the Science Mission Directorate Planetary Systems Division at NASA Headquarters, describes the replica of the Mars Curiosity Rover on the second NASA float in Monday’s (Jan 21, 2013) presidential inaugural parade. Parade photos below

Full scale models of NASA’s Curiosity Mars rover and the Orion crew capsule are participating in the 2013 Presidential Inaugural Parade on Monday, Jan 21, 2013, in Washington, DC – representing NASA’s robotic and human spaceflight endeavors.

The fantastically successful Curiosity rover is discovering widespread evidence for the ancient flow of liquid water on Mars.

The Orion multi-purpose capsule will take our astronauts back to the Moon and farther into space than ever.

NASA is the ONLY federal agency asked to be in the inaugural parade and now Curiosity is leading the NASA group with Orion after Curiosity.

Update 530 PM EDT – NASA’s 2 floats just passed by a cheering and waving President Obama & VP Biden at the reviewing stand in front of the White House – prominently near the front of the parade. See float photos from the parade below

Walking alongside both floats are members of the Curiosity team from NASA’s Jet Propulsion Laboratory – including ‘Mohawk Guy’ – and several current and former astronauts.

The participating astronauts are Alvin Drew, Serena Aunon, Kate Rubins, Mike Massimino, Lee Morin and Kjell Lindgren, as well as Leland Melvin, NASA’s associate administrator for Education, and John Grunsfeld, NASA’s associate administrator for Science.

The marching team for Curiosity includes Richard Cook-project manager (from JPL), Bobak Ferdowsi (otherwise known as ‘Mohawk Guy’)-flight director (from JPL), Dave Lavery – program executive (from NASA Headquarters) , Michael Meyer – program Scientist (from NASA Headquarters), Jennifer Trosper-mission manager (from JPL) and Ashwin Vasavada, Deputy Project Scientist (from JPL)

Image caption: Orion crew capsule float with NASA astronauts at the Presidential Inaugural parade on Jan 21, 2013 in Washington, DC. Credit: NASA

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Image caption: Curiosity float with team members at the Presidential Inaugural parade on Jan 21, 2013 in Washington, DC. Credit: NASA

Be sure to check out NASA’s Flickr stream for many photos from the 2013 Inaugural Day festivities and parade – here and here

Here’s another video about the Curiosity float:

Ken Kremer

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Image caption: Orion crew capsule arrives in Washington, DC, for Presidential Inaugural parade on Jan 21, 2013. Credit: NASA