Dark shadows and dust in VdB 4. Credit: Adam Block/Mount Lemmon SkyCenter/University of Arizona
It’s the Case of the Phantom Phalanges! Spooky fingers reach up from the dark realms of space in this new image from Adam Block of the Mount Lemmon Sky Center. The image shows a ghostly view of VdB 4, which is a reflection nebula associated with a young open star cluster NGC 225, often called the Sailboat Cluster. Click here to see the entire field of view — which includes a dark area that looks like a spooky Halloween spider. This image was taken in October, 2012 with the 32-inch Schulman Telescope (RCOS) at Mount Lemmon, using a SBIG STX16803 CCD Camera. Thanks to Adam Block for sharing this eerie image!
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Need some inspiration for carving your Halloween pumpkin? Look no further. Last year we featured some amazing feats of Halloween pumpkin carving, and this year the field is just as impressive. And what could be scarier than seven minutes of terror and Dragons? This year many carvers went with a Mars Science Laboratory theme, as did Will Gater, who brandished his carving knife in this outstanding re-creation of Curiosity being lowered by the Skycrane.
See more, below:
Liz Warren (@spasmunkey) carved an eery view of Curiosity on Mars.
Curiosity lasering a rock “for science!” said carver and planetary scientist Dr. Sarah Horst (@PlanetDr)
Someone at Johnson Space Center (@NASA-Johnson) is pretty handy with a pumpkin carving knife and deftly paid tribute to SpaceX’s recent success with the Dragon capsule visiting the International Space Station and safely returning cargo and experiments.
And here’s a timelapse video of a pumpkin artist creating a tribute to the recent Red Bull Stratos jump from the stratosphere:
Hurricane Sandy as viewed by the TRMM Precipitation Radar at 2:20 EDT on Oct. 28, 2012. Credit: NASA
Satellite imagery and data has been invaluable in predicting the path and intensity of storms like Hurricane Sandy. Satellites like NASA’s Tropical Rainfall Measuring Mission (TRMM) can measure rainfall rates and cloud heights in tropical cyclones, and was used to create a 3-D image, above, to allow forecasters to look inside the hurricane, and predict fairly spot-on what locations would be affected the worst. There’s even a 3-D video view from the CloudSat satellite, and much more, including a stunning wind map, and this round-up from JPL of various satellite views of the storm. You can also see a slideshow of NASA satellite images and videos on the NASA Goddard Flickr site.
This exemplifies just one reason why space exploration is important, and why people are maybe now starting to realize how our failure to plan ahead and invest in weather satellites may become a problem. Without those eyes in the sky we are blind to the minute-to-minute and hour-to-hour development of storms and weather, not to mention overall study of the climate.
Below is a stunning high-speed satellite view from the GOES-14 satellite:
Focusing just on the area of the storm, the GOES-14 Super Rapid Scan Operation (SRSO) captures infrared and visible data every minute and relays that information to forecasters on the ground. This animation shows the GOES-14 SRSO for October 29, 2012 as Hurricane Sandy approached the U.S. coastline.
Another West Coast centric edition of the Virtual Star Party. Not because of a lack of volunteers, but because while we were broadcasting, Hurricane Sandy was tearing up the East Coast of the United States. And as you can probably guess, hurricanes don’t make for great stargazing.
Still, we had a wonderful night, with views of the full Moon, California Nebula, Veil Nebula, Crescent Nebula, Ring Nebula, Albiero, Double Cluster, M33, Cave Nebula, Wizard Nebula, Andromeda Galaxy, and many more objects.
We hold our Virtual Star Party every Sunday night when it gets dark on the West Coast, and broadcast live on Google+. Circle the Virtual Star Party page on G+ to get a notification of the event.
Here’s the view of Hurricane Sandy from an altitude of 254 statute miles from external cameras on the International Space Station. This video was shot as the ISS flew over the US’s eastern seaboard at 12:52 Eastern time October 29, 2012. Sandy has yet to officially make landfall, but the huge storm is already battering a region that makes up the most densely populated area of the US. The combination of three different storms has caused it to be dubbed as “Frankenstorm,” but it could turn into a “Blizzicane” as a winter storm merges with Sandy. The hurricane itself is strengthening as it barrels toward a landfall along the New Jersey coastline.
Below is video of the ISS pass at 11:16 a.m on Monday:
At the time of the flyover, Sandy was located 420 km (260 miles) south-southeast of New York City, moving north-northwest at 18 miles an hour with winds measured at 90 miles an hour as a Category 1 hurricane, according to the National Hurricane Center.
The huge slow moving combination of storms stretches about 1,600 km (1,000 miles) from north to south and significant impacts of storm surge and flooding are expected, with at least 7-10 inches of rain. This comes along with a snow advisory in some regions, creating a “Blizzicane” in the mountains of West Virgina, with 2-4 feet of snow predicted.
Forecasters are predicting this to be a multi-billion dollar storm disaster.
Here are some recent images of the storm:
Satellite View of Hurricane Sandy on Oct. 29 at 9:10 EDT by NOAA’s GOES-13 satellite.
Hurricane Sandy Viewed in the Dark of Night. Image acquired by the Visible Infrared Imaging Radiometer Suite (VIIRS) on the Suomi NPP satellite around 2:42 a.m. Eastern Daylight Time (06:42 Universal Time) on October 28, 2012.
As the Milky Way rises over the horizon at the European Southern Observatory, its companion galaxies also come into view. Credit: ESO/Y. Beletsky
A previously undetected heist of stars was uncovered by astronomers who were actually looking for why an unexpected amount of microlensing events were being seen around the outskirts of the Milky Way. Instead, they found the Large Magellanic Cloud (LMC) had been stealing stars from its neighbor, the Small Magellanic Cloud (SMC), leaving behind a trail of stars. Although the crime was likely committed hundreds of milllions of years ago during a collision between the two galaxies, the new information is helping astronomers to understand the history of these two galaxies that are in our neighborhood.
“You could say we discovered a crime of galactic proportions,” said Avi Loeb of the Harvard-Smithsonian Center for Astrophysics.
The Large Magellanic Cloud almost got away with it, if it wasn’t for those meddling astronomers….
Astronomers were originally monitoring the LMC to hunt for the reason for the unexpected microlensing events. Their initial hypothesis was that massive compact halo objects, or MACHOs were causing the effect, where a nearby object passes in front of a more distant star. The gravity of the closer object bends light from the star like a lens, magnifying it and causing it to brighten. The MACHOs were thought to be faint objects, roughly the mass of a star, but not much is known about them. Several surveys looked for MACHOs in order to find out if they could be a major component of dark matter – the unseen stuff that holds galaxies together.
In order for MACHOs to make up dark matter, they must be so faint that they can’t be directly detected. So, the team of astronomers hoped to see MACHOs within the Milky Way by lensing distant LMC stars.
“We originally set out to understand the evolution of the interacting LMC and SMC galaxies,” said lead author of a new paper on the results, Gurtina Besla of Columbia University. “We were surprised that, in addition, we could rule out the idea that dark matter is contained in MACHOs.”
“Instead of MACHOs, a trail of stars removed from the SMC is responsible for the microlensing events,” said Loeb.
Only a fast-moving population of stars could yield the observed rate and durations of the microlensing events. The best way to get such a stellar population is a galactic collision, which appears to have occurred in the LMC-SMC system.
“By reconstructing the scene, we found that the LMC and SMC collided violently hundreds of millions of years ago. That’s when the LMC stripped out the lensed stars,” said Loeb.
Their research also supports recent findings suggesting that both Magellanic Clouds are on their first pass by the Milky Way.
However, this isn’t a closed case. The evidence for the trail of lensed stars is persuasive, but they haven’t been directly observed yet. A number of teams are searching for the signatures of these stars within a bridge of gas that connects the Magellanic Clouds.
The simulation results will be published in the Monthly Notices of the Royal Astronomical Society.
Prototype of the new Juno rover, a 300 kg rover for a mission to Mars or the Moon. Credit: CSA
The Canadian Space Agency is well known for its robotics but they’ve recently expanded from robotic arms to building prototypes for five new rovers, designed for future lunar and Mars missions. They range from microrovers to full-sized science missions and range in size from 30 kg up to 900 kg. The largest of them, the Lunar Exploration Light Rover, is designed to carry a scientific payload and can be fitted with a robotic arm. It has a range of 15 km, can be operated remotely, or can be used to carry astronauts across a planetary surface.
A version of the Juno rover with tires. Credit: CSA
The two Micro-Rover prototypes, at 40 kg and 30 kg., are designed to be operated in conjunction with larger rovers, and can be tethered to them and lowered into otherwise inaccessible areas.
“On the Moon, permanently shadowed craters provide many interesting areas to find water and other volatiles, Jean-Claude Piedboeuf, Director of Space Exploration Development at the Canadian Space Agency told Universe Today. “These craters have steep slopes making it difficult and risky for a large rover. Therefore, sending a micro-rover tethered to its mother one gives us the ability to explore the bottom of these craters with a minimum risk. Sending only a micro-rover could be an option. However, they are very slow so it is more efficient to have them on a larger rover to cover long distance and deploy them when needed.”
The micro-rovers can also be used to work alongside astronauts, to gain access to small spaces like caves.
The rovers should be mission-ready by about 2020, and NASA is already interested. Most missions to Mars and the Moon involve geology, and sometime in the future, mining. For instance, NASA has an experiment under consideration that entails digging up soil on the Moon and making hydrogen and oxygen out of it. These designs are intended to fit in with those types of activities.
Space robotics technology has long been a point of pride for Canadians, Canadarm was a fixture on the Space Shuttles and made it possible to do things like deploying satellites like the Hubble Space Telescope and was instrumental in building the International Space Station. CSA also built the huge Canadarm 2 and Dextre, the highly dexterous dual-armed robot, both of which reside on the International Space Station. More recently, CSA contributed a robotic arm and other equipment to Curiosity, the newest NASA rover to land on Mars.
Artemis is a light-weight terrestrial prototype that can either be operated by a human nearby or at a remote location, or use its onboard sensors to scan its environment and navigate without the need for a human operator. Credit: CSA
The new rover designs will add to the fine lineage of Canadian space robotics. Once they are deployed on missions to the Moon or Mars, they may end up elbowing the Canadarm and Dextre out of the spotlight. If they do take centre stage, no feelings will be hurt. Many of the same people who worked on the Canadarms and Dextre are involved in the development of the rovers.
“MDA (MacDonald, Detwiler and Associates) was the prime contractor for Canadarm and Dextre and is prime on three rover prototypes,” said Piedboeuf.
With these rover prototypes, CSA has avoided the one size fits all approach to rover design.
“The fleet developed by the Canadian industry for the CSA covers the range of applications we envisage and that will be welcomed by our international partners,” said Piedboeuf.
Though the CSA doesn’t anticipate any other rover designs, these 5 prototypes could be focused “on more specific applications such as in-situ resource utilization or science,” explained Piedboeuf.
If you find the unveiling of 5 new rover prototypes exciting, you’re in good company.
“People in industry, academia and within the CSA were excited to develop these rovers that could be one day on the Moon or Mars,” said Piedboeuf. “The opportunity of working on prototypes of space rovers with challenging requirements and advanced autonomy was a great motivation.”
See more images and information on the fleet of rovers at CSA’s website.
The Orion Nebula, or M42 in a hybrid image of old DSLR data with new CCD images. Credit: Astrochuck on Flickr.
This view of the Orion Nebula makes it appear as a bloody mess! Astrochuck on Flickr said he’s been socked in with clouds and rain lately so took this opportunity to combine some older DSLR data with new CCD observations to create this stunning view of M42. Here are the specs:
QHY9M & Orion ED102CF refractor 10/21/2012 & 10/22/2012
L- 7×600
R-3×600
G-3×600
B-3×600
(5×2 seconds for the core area)
3/22/12
Canon T3 w/Astronomik Ha filter & ST-80T refractor 5×120,10×300,5×600 @iso 1600
6×60 w/crosshairs for diffraction spikes
Images acquired,aligned and stacked with Nebulosity V2.0, Guiding with Orion 50mm mini guider,SSAG and Phd. Combined & post processed with PS6 and StarTools.
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Just released, this mesmerizing animation was created by Kevin Ward from images acquired by NOAA’s GOES-O/14 satellite. It shows the progression of Hurricane Sandy, currently a Category 1 hurricane off the coast of the eastern U.S. that’s poised to make a devastating impact when its heavy rains, winds and storm surges strike the shores of many major metropolitan coastal areas — including New York City and Washington, D.C.
Nearly 12 hours of time are compressed into 30 seconds, revealing the evolution of Sandy as it churned over the Atlantic on Sunday, October 28.
From NASA’s Earth Observatory’s YouTube page: This time-lapse animation shows Hurricane Sandy from the vantage point of geostationary orbit—35,800 km (22,300 miles) above the Earth. The animation shows Sandy on October 28, 2012, from 7:15 to 6:26 EDT. Light from the changing angles of the sun highlight the structure of the clouds. The images were collected by NOAA’s GOES-14 satellite. The “super rapid scan” images — one every minute from 7:15 a.m. until 6:30 p.m. EDT — reveal details of the storm’s motion.
Launched by NASA as GOES-O on June 27, 2009, GOES-14 is now under control by the NOAA, keeping an eye on the mid-Atlantic region from a geostationary position approximately 22,300 miles (35,800 km) above the Earth.
Sandy is expected to bring up to 10 inches of rain into New York, with a surge possible over 6 feet above high tide and wind gusts in excess of 75 mph. Once the hurricane moves inland there could be millions left without electricity. States of emergency have already been declared in many areas within Sandy’s projected path.
Currently Sandy is off the coast of North Carolina (at the time of this writing, 34.5 N / 70.5 W) moving northeast at 14 mph (22 km/h) with a low pressure of 950 mb… that’s as low or lower than some of the most powerful storms to hit the eastern U.S. over the past century, including the “perfect storm” of 1991 (a low system which also struck at Halloween) and the deadly 1938 “Great Hurricane”, which devastated coastal regions all across southern New England.
Stay up to date on Hurricane Sandy’s progress on the NOAA page here, with the latest public advisories being posted here.
NASA animation by Kevin Ward, using images from NOAA and the University of Wisconsin-Madison Cooperative Institute for Meteorological Satellite Studies.
This video shows various views of the Dragon capsule being unberthed and moving away from the International Space Station, and is sped up at 15 times actual speed. The kicker comes at the end with a look back at the ISS. Not quite as good a view as the old space shuttle flyarounds, but nice to see the station as a whole.
