Watch Asteroid 2012 DA14’s Earth Fly-By Live

A List of Live Webcasts to Watch the Asteroid 2012 DA14’s Earth Fly-By

NASA Television (USA) - With commentary, the live feed will start at 19:00 UTC (UStream link)

Bareket Observatory (Israel) - The observatory will have a live feed of images refreshing every 30 - 60 seconds starting from 19.30 UTC

Virtual Telescope (Italy) -  Dr. Gianluca Masi will narrate and answer questions as he shares the minor planet’s motion through the sky beginning at 22:00 UTC

Slooh Space Camera (Canary Islands and Arizona) - Starting from 02:00 UTC (2/16), the webcast will provide views of the asteroid from observatories in the Canary Islands and in Arizona. The event will accompany real-time discussions with Slooh Space Camera’s Paul Cox, astronomer and author Bob Berman, and Prescott Observatory manager, Matt Francis.

NASA JPL (USA) - Near real-time imagery of the asteroid's flyby in Australia and Europe, weather permitting, will be streamed beginning at about 17:00 UTC

NASA MSFC (USA) - Watch a feed of the flyby from a telescope at NASA's Marshall Space Flight Center in Huntsville, Alabama starting at 02:00 UTC (2/16)

The Planetary Society (USA) - Join Planetary Society Director of Projects Bruce Betts and host of Planetary Radio, Mat Kaplan for the web stream starting from 19:50 UTC

GLORIA Project (Europe) - A number of GLORIA telescopes plan to observe the asteroid. Images will be uploaded to the website every ~5 minutes starting from 19:00 UTC

Clay Center Observatory (USA) - Rreal-time high-definition video from the Clay Center Observatory will be available from 23 UTC onwards.


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Image courtesy of SLOOH

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Remembering the fallen heroes of Columbia

The day started on a bright note for the crew of STS-107 aboard the Space Shuttle Columbia. They were awakened by a rousing rendition of Scotland the Brave in honor of mission specialist Laurel Clark’s Scottish heritage. Mission Control followed the wake-up tune with news the astronauts had been waiting for. It was time to come home. The seven members of the crew (Commander Rick Husband, pilot Willie McCool and mission specialists Kalpana Chawla, Laurel Clark, Mike Anderson, David Brown and Israeli payload specialist Ilan Ramon) were coming to the end of a 16 day mission of scientific experimentation.

Shortly after 9:00AM EST, the Space Shuttle Columbia disintegrated in the skies above Texas, killing all crew members aboard.

Please read my blog post from last year for more information on the disaster.


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As a kid I always wanted to become an astronaut, and that dream still lives on. On 1st of February, 2003, I was home watching the images and videos of the disaster over and over. It was a moment that everything around you stops. This incident felt so deeply but it only made me more encourage to pursuit my dream.

May the souls of our heroes rest between Stars!


Some unforgettable moments:

STS-107 reentry

an astronaut helmet

STS 101 mission patch on the ground

Columbia Memorial in Arlington National Cemetery

the crew cutting the official cake

STS 107 lift off

Columbia on the launch pad before its first mission (1981)

a cartoon which published on a Florida newspaper

The crew of STS-107. L to R: Brown, Husband, Clark, Chawla, Anderson, McCool, Ramon.

Image credit: NASA/Astronaut Memorial

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Buzz Aldrin completes 80 Orbits – Send him wishes

Today Buzz Aldrin turns 80. And you have the opportunity to send him wishes. The Planetary Society is gathering good wishes from all over the planet to present to Buzz. They will be personally delivering all the messages in a giant birthday card! Wish him now!


Buzz Aldrin (born Edwin Eugene Aldrin, Jr.; January 20, 1930) is an American mechanical engineer, retired United States Air Force pilot and astronaut who was the Lunar Module pilot on Apollo 11, the first manned lunar landing in history. On July 20, 1969, he was the second person to set foot on the Moon, following mission commander Neil Armstrong.


I’m affiliated a multinational organization called Space Renaissance Initiative (SRI). Last year Buzz joined for one of SRI committee meeting via telecon. It was fascinating to interact with him. All the words he spoke were very inspiring.

Buzz in 2009

Links:
Buzz Aldrin
Astronaut Bio: Buzz Aldrin


Image credit:NASA/ Phil Konstantin

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Moon Impact by LCROSS – a historical event

The final countdown begins for LCROSS spacecraft to impact the Moon on Friday, October 9, this will be a once in a life time opportunity to witness the event.

Based on the projections, scientists predict there should a visible ejecta cloud rising 6km above the lunar surface. NASA/Ames scientist Brain Day says, that it’s possible to view this impact with a 10inches or larger telescope. Many amateur astronomers and some ground based telescopes are already geared up to photograph and video the event.

Few hours from now a 2270kg (5000pounds) Centaur will slam into Cabeus crater, making an impact at a speed of 9000kmph (5600mph) creating a crater roughly about 60 or 70 feet wide, and 16 feet deep. This impact will eject roughly 385tons of lunar dust and soil. This impact will be followed by Sherpherding spacecraft which is also expected to slam into moon surface. Both spacecrafts will send data back to Earth through out the process, and scientist hope to see signs of lunar water.

Impact location

When: As a result of the latest TCM (Trajectory Correction Maneuvers), the time of impact on Friday, October 9, 2009:

--Centaur impact time: 11:31:19 UTC, 7:31:19 EDT, 4:31:19 PDT
--Shepherding spacecraft impact time: 11:35:45 UTC, 7:35:45 EDT, 4:35:45.

Note that the impact time may be changed as the event comes closer. Go to NASA LCROSS site for the up-to-date time changes. http://www.nasa.gov/lcross

Where: Both spacecraft are targeting Cabeus crater. The impact site coordinates are -84.675, 311.275 E.

Cabeus crater is located about 100 km from the south pole of the Moon.

You can download Targeting Coordinates, Timing, and Finder Charts at:
NASA http://lcross.arc.nasa.gov/docs/LCROSS_Target_Update_100209.ppt

How to witness the event:
Many space/astronomy societies, planetariums, institutions, museums, amateur astronomers around the world will gather to hold events to witness the event.

List of events can be seen at http://www.nasa.gov/mission_pages/LCROSS/impact/event_index.html
http://www.spaceflightnow.com/lcross/091009observations/index.html

Thousands around the world will watching it live via web tv.
NASA TV
SLOOH
Exploratorium

LCROSS

LCROSS background info

The LCROSS mission is a search for water on the moon. The LCROSS mission is going to do this by sending a rocket crashing into the moon causing a big impact and creating a crater, throwing tons of debris and potentially water ice and vapor above the lunar surface. This impact will release materials from the lunar surface that will be analyzed for the presence of hydrated minerals which would tell researchers if water is there or not. The two main components of the LCROSS mission are the Shepherding Spacecraft (S-S/C) and the Centaur upper stage rocket. The Shepherding Spacecraft guides the rocket to a site selected on the moon that has a high probability of containing water. Because they have only one chance with this mission in finding water, the researchers have to be very precise where they program the Shepherding Spacecraft to guide the rocket.

The launch

The Shepherding Spacecraft and Centaur rocket are launched together with another spacecraft called the Lunar Reconnaissance Orbiter (LRO). All three are connected to each other for launch, but then the LRO separates one hour after launch. The Shepherding Spacecraft guides the Centaur rocket through multiple Earth orbits, each taking about 38 days. The rocket then separates from the Shepherding Spacecraft and impacts the Moon at more than twice the speed of a bullet, causing an impact that results in a big plume or cloud of lunar debris, and possibly water. While this is happening the Shepherding Spacecraft, which has scientific instruments on-board including cameras, is taking pictures of the rocket’s descent and impact into the moon. Four minutes later, the Shepherding Spacecraft follows almost the exact same path as the rocket, descending down through the big plume and analyzing it with special instruments. The analysis is specifically looking for water (ice and vapor), hydrocarbons and hydrated materials. The Shepherding Spacecraft is collecting data continuously and transmitting it back to Earth before its own demise. This crash will be so big that we on Earth may be able to view the resulting plume of material it ejects with a good amateur telescope.



Names on the LRO

LRO

As a part of the shared Lunar Precursor Robotic Program – the first American mission to the Moon in over ten years – LCROSS was launched together with the Lunar Reconnaissance Orbiter.

The Lunar Reconnaissance Orbiter (LRO) is currently (as of October 2009) orbiting the Moon on a low 50 km polar mapping orbit. The LRO mission is a precursor to future manned missions to the moon by NASA. To this end a detailed mapping program will identify safe landing sites, locate potential resources on the moon, characterize the radiation environment, and demonstrate new technology.

Engineers are shown here with the microchip

In response to LRO's "Send Your Name to the Moon" initiative, the spacecraft carries a microchip with nearly 1.6 million names submitted by the public. The microchip encased in a radiation hardened container and attached to the back of the propulsion module access panel.

I included my name as well :)

Thilina Heenatigala
General Secretary
Sri Lanka Astronomical Association



Source: NASA, Wiki, Universe Today
Image Credits: NASA, GSFC, AMES, Thilin Heenatigala

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One small step changed the human perspective

"I believe that this nation should commit itself to achieving the goal, before this decade is out, of landing a man on the moon and returning him safely to the Earth,” were the words of President John F. Kennedy in 1961, as he announced the dramatic and ambitious goal of putting a man on the moon by the end of the decade.

Few years from that announcement, on 16 July 1969, half a million people gathered near Cape Canaveral, Florida. Their attention was focused on three astronauts—Neil A. Armstrong, Edwin E. Aldrin Jr., and Michael Collins—who lay in the couches of an Apollo spacecraft bolted atop a Saturn V launch vehicle, awaiting ignition of five clustered rocket engines to boost them toward the first lunar landing.

On July 20, 1969, the human race accomplished its single greatest technological achievement of all time when a human first set foot on another celestial body.

Six hours after landing at 4:17 p.m. Eastern Daylight Time (with less than 30 seconds of fuel remaining), Neil A. Armstrong took the “Small Step” into our greater future when he stepped off the Lunar Module, named “Eagle,” onto the surface of the Moon, from which he could look up and see Earth in the heavens as no one had done before him.

He was shortly joined by “Buzz” Aldrin, and the two astronauts spent 21 hours on the lunar surface and returned 46 pounds of lunar rocks. After their historic walks on the Moon, they successfully docked with the Command Module “Columbia,” in which Michael Collins was patiently orbiting the cold but no longer lifeless Moon.

The landing on the Moon is unquestionably the greatest technological achievement of the twentieth and possibly any other century.

Lunar Plaque

After more than 2½ hours on the lunar surface, the Apollo 11 crew left behind scientific instruments and a plaque (mounted on the LM Descent Stage ladder) bearing two drawings of Earth (of the Western and Eastern Hemispheres), an inscription, and signatures of the astronauts and Richard Nixon. The inscription read Here Men From The Planet Earth First Set Foot Upon the Moon, July 1969 A.D. We Came in Peace For All Mankind. They also left behind a memorial bag containing a gold replica of an olive branch as a traditional symbol of peace and a silicon message disk.

Other plaques from Apollo missions.

Apollo 11 Goodwill Messages

The Apollo 11 Goodwill Messages are statements from leaders of 73 countries around the world on a disc about the size of a 50-cent piece made of silicon that was left on the Moon by the Apollo 11 astronauts.
Even though Sri Lanka was invited to submit a Goodwill message, recently I learned that we did not!
Read more on this at “No Moon, please – we’re Ceylonese: How Sri Lanka lost the Moon…

Apollo Landing Sites Imaged by Lunar Reconnaissance Orbiter

The picture above shows the the Lunar Module, the part that stayed behind on the Moon when Armstrong and Aldrin blasted back up off the surface. It was essentially dead weight, so the LM was designed to split in half, with the top half (the aptly-named Ascent Module) going back up into orbit to meet with Michael Collins in the Command Module. From there they returned to Earth.

The Descent Module is about 4 meters or so across, and the image, above taken when the Sun was low on the horizon, clearly shows the DM and its shadow cast across the lunar surface. The region where they landed was fairly smooth, so the module is the only thing large enough in the image to cast an appreciable shadow.


LRC took images of the other Apollo sites as well.

All images credit: NASA/Goddard Space Flight Center/Arizona State University

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Remembering the STS-107 astronauts of Space Shuttle Columbia who died tragically 6 years ago today!

Today, we honor the brace heroes of STS-107 who died aboard the Space Shuttle Columbia on this date in 2003.

The day started on a bright note for the crew of STS-107 aboard the Space Shuttle Columbia. They were awakened by a rousing rendition of Scotland the Brave in honor of mission specialist Laurel Clark’s Scottish heritage. Mission Control followed the wake-up tune with news the astronauts had been waiting for. It was time to come home. The seven members of the crew (commander Rick Husband, pilot Willie McCool and mission specialists Kalpana Chawla, Laurel Clark, Mike Anderson, David Brown and Israeli payload specialist Ilan Ramon) were coming to the end of a 16 day mission of scientific experimentation.

Shortly after 9:00AM EST, the Space Shuttle Columbia disintegrated in the skies above Texas, killing all crew members aboard.

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The Space Shuttle Columbia disaster occurred on February 1, 2003, when the Space Shuttle Columbia disintegrated over Texas during re-entry into the Earth's atmosphere, with the loss of all seven crew members, shortly before it was scheduled to conclude its 28th mission, STS-107.

The loss of Columbia was a result of damage sustained during launch when a piece of foam insulation the size of a small briefcase broke off the Space Shuttle external tank (the main propellant tank) under the aerodynamic forces of launch. The debris struck the leading edge of the left wing, damaging the Shuttle's thermal protection system (TPS), which protects it from heat generated with the atmosphere during re-entry. While Columbia was still in orbit, some engineers suspected damage, but NASA managers limited the investigation on the grounds that little could be done even if problems were found.

NASA's Shuttle safety regulations stated that external tank foam shedding and subsequent debris strikes upon the Shuttle itself were safety issues that needed to be resolved before a launch was cleared, but launches were often given the go-ahead as engineers studied the foam shedding problem without a successful resolution. The majority of Shuttle launches recorded such foam strikes and thermal tile scarring in violation of safety regulations.During re-entry of STS-107, the damaged area allowed the hot gases to penetrate and destroy the internal wing structure, rapidly causing the in-flight breakup of the vehicle. A massive ground search in parts of Texas, Louisiana and Arkansas recovered crew remains and many vehicle fragments.

Mission STS-107 was the 113th Space Shuttle launch. It was delayed 18 times over the two years from its original launch date of January 11, 2001 to its actual launch date of January 16, 2003. (It was preceded by STS-113.) A launch delay due to cracks in the shuttle's propellant distribution system occurred one month before a July 19, 2002 launch date. The Columbia Accident Investigation Board (CAIB) determined that this delay had nothing to do with the catastrophic failure six months later.

The Columbia Accident Investigation Board's recommendations addressed both technical and organizational issues. Space Shuttle flight operations were delayed for two years by the disaster, similar to the Challenger disaster. Construction of the International Space Station was put on hold, and for 29 months the station relied entirely on the Russian Federal Space Agency for resupply and crew rotation until Shuttle flights resumed with STS-114.





Source:
content-wiki, space.com
title-YOHAN FERREIRA

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