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Saturday, December 5, 2015

Fwd: Hayabusa2 space probe set for Earth 'swing-by' to head to asteroid



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Begin forwarded message:

From: "Gary Johnson" <gjohnson144@comcast.net>
Date: December 3, 2015 at 8:29:21 AM CST
To: "Gary Johnson" <gjohnson144@comcast.net>
Subject: FW: Hayabusa2 space probe set for Earth 'swing-by' to head to asteroid

 

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Press Release

Hayabusa2 Earth Swing-by

December 3, 2015 (JST)

National Research and Development Agency
Japan Aerospace Exploration Agency (JAXA)

The Japan Aerospace Exploration Agency (JAXA) performed an Earth swing-by operation of the Asteroid Explorer "Hayabusa2 " on the night of December 3 (Thu.), 2015 (Japan Standard Time). The Hayabusa2 flew closest to the Earth at 7:08 p.m. (JST) and passed over the Pacific Ocean around the Hawaii islands at an altitude of about 3,090 km.
After its closest flight to the Earth, we have confirmed the good health of the Hayabusa2 through operations supported by the NASA Deep Space Network stations.
The Hayabusa2 project team is currently measuring and calculating the post-swing-by orbit. It will take about a week to confirm if the explorer entered the target orbit. We will report the result once it is determined.

 

 

Copyright © 2007-2015 Japan Aerospace Exploration Agency

 


 

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                   December 03, 2015

 

Hayabusa2 space probe set for Earth 'swing-by' to head to asteroid

TOKYO (Kyodo) -- Japan's Hayabusa2 space probe, launched in December 2014, will make its closest approach to the Earth later Thursday to perform a so-called "swing-by" to set itself on course toward its target asteroid 300 million kilometers from the Earth, the space agency said.

The probe, which has traveled on an orbit similar to the Earth's orbit around the sun, will fly at a point about 3,100 km away from the Earth shortly after 7 p.m. before changing its direction and picking up speed by using the planet's gravity -- a method used for spacecraft to save fuel in order to complete their long mission.

To put Hayabusa2 on the correct orbit with the swing-by requires precise maneuvering of its location, which is like "aiming at a bug at the top of Mt. Fuji from Tokyo," Hiroshi Takeuchi of the Japan Aerospace Exploration Agency said. The 3,776-meter mountain is Japan's highest peak.

The probe will be flying above Hawaii when it makes its closest approach to the Earth, but experts say it will be invisible to the naked eye. Before reaching that point, astronomical observatories in Japan may have a chance to capture with their telescopes the image of Hayabusa2, which measures 4 meters by 6 meters when its solar panel wings are spread.

Hayabusa2 was launched in December 2014 on an H-2A rocket on course for the 900-meter wide asteroid that was later named Ryugu to collect rock samples. The probe is expected to reach the asteroid in 2018 and return to the Earth in late 2020.

The probe is a successor to the Hayabusa asteroid explorer, which returned to the Earth with surface samples from an asteroid for the first time ever in 2010.

After its launch in 2003, Hayabusa's journey of 6 billion km to and from the asteroid Itokawa was plagued with difficulties, including failures of its engines and gyroscopes and at one point a loss of communications with the Earth.

The roughly 600-kilogram Hayabusa2's improvements on its predecessor include more durable ion engines.

After landing on the target asteroid Ryugu, rovers will be released from the probe. Hayabusa2 will make a crater with a metal impactor to access materials undisturbed by radiation from the sun and other bodies.

 

Copyright © 2015 Kyodo News Agency. All rights reserved. 

 


 

 

 

Hayabusa 2 to Flyby the Earth Tomorrow

by David Dickinson on December 2, 2015

Image credit: JAXA

An artist's conception of Hayabusa 2 passing the Earth-Moon system. Image credit: JAXA

A space-faring friend pays our fair planet a visit this week on the morning of December 3rd, as the Japanese Space Agency's Hayabusa 2 spacecraft passes the Earth.

The Flyby

Rick Baldridge on the SeeSat-L message board notes that Hayabusa-2 will pass 9,520 kilometers from the Earth's center or 3,142 kilometers/1,885 miles from the Earth's surface at 10:08 UT/5:08 AM EST on Thursday, December 3rd, passing from north-to-south above latitude 18.7 north, longitude 189.8 east just southwest of the Hawaiian Islands.

https://www.youtube.com/watch?v=Kjqff5bkUrE

Unfortunately, the sighting opportunities for Hayabusa-2 aren't stellar: even at its closest, the 1.5 meter-sized spacecraft is about nine times more distant than the International Space Station and satellites in low Earth orbit. To compound the challenge, Hayabusa-2 passes into the Earth's shadow from 9:58 UT to 10:19 UT.

Image credit: JAXA

The path of Hayabusa-2 past the Earth. Image credit: JAXA

Still, skilled observers with large telescopes and sophisticated tracking rigs based along the Pacific Rim of North America might just catch sight of Hayabusa-2 as it speeds by. The JPL Horizons ephemeris generator is a great resource to create a customized positional chart in right ascension and declination for spacecraft for your given location, including Hayabusa-2.

Image credit: JAXA

The Earth-Moon pair snapped by Hayabusa-2 on November 26th from about three million kilometers distant. Image credit: JAXA

Hayabusa-2 won't crack 20 degrees elevation for observers along the U.S. West Coast, putting it down in the atmospheric murk of additional air mass low to the horizon. This also tends to knock the brightness of objects down a magnitude or so… estimates place Hayabusa-2 at around magnitude +13 shortly before entering the Earth's shadow. That's pretty faint, but still, there are some dedicated observers with amazing rigs out there, and it's quite possible someone could nab it. Hawaii-based observers should have the best shot at it, though again, it'll be in the Earth's shadow at its very closest…

Amateur radio satellite trackers are also on the hunt for the carrier-wave signal of the inbound Hayabusa-2 mission. You can also virtually fly along with the spacecraft until December 5th: (H/T @ImAstroNix):

A simulation of tomorrow's flyby. Image Credit: JAXA

A simulation of tomorrow's flyby. Image Credit: JAXA

Probably the best eye-candy images will come from the spacecraft itself: already, Hayabusa-2 has already snapped some great images of the Earth-Moon pair using its ONC-T optical navigation camera during its inbound leg.

Image credit: JAXA

A close-up of Hayabusa-2's view of the Earth and Moon. Image credit: JAXA

Other notable missions used Earth flybys en route to their final destinations, including Cassini in 1999, and Juno in 2013. Cassini's return caused a bit of a stir as it has a plutonium-powered RTG aboard, though Earth and its inhabitants were never in danger. A nuclear RTG actually reentered during the return of Apollo 13, with no release of radioactive material. Meant for the ALSEP science package on the surface of the Moon, it was deposited on the reentry of the Lunar Module over the Marinas Trench in the South Pacific. And no, Hayabusa-2 carries no radioactive material, and in any event, it's missing the Earth by about a quarter of its girth.

The successor to the Hayabusa ('Peregrine Falcon' in Japanese) mission which carried out a historic asteroid sample return from 25143 Itokawa in 2010, Hayabusa-2 launched atop an H-IIA rocket from Tanegashima, Japan exactly a year ago tomorrow on a six year mission to asteroid 162173 Ryugu. This week's Earth flyby will boost the spacecraft an additional 1.6 kilometers per second to an outbound velocity towards its target of 31.9 kilometers per second post-flyby.

Image credit: JAXA

Launch of an H-IIA rocket with Hayabusa-2. Image credit: JAXA

Like its predecessor, Hayabusa-2 is a sample return mission. Unlike the original Hayabusa, however, Hayabusa-2 is more ambitious, also carrying the MASCOT (Mobile Asteroid Surface Scout) lander and an explosive seven kilogram impactor. Hayabusa-2 will deploy a secondary camera in orbit to watch the detonation and will briefly touch down at the impact site to collect material.

If all goes as planned, Hayabusa-2 will return to Earth in late 2020.

NASA has its own future asteroid sample return mission planned, named OSIRIS-REx. This mission will launch in September of next year to rendezvous with asteroid 101955 Bennu in September 2019 and return to Earth in September 2023.

An artist's conception on Hayabusa 2 at asteroid . Image credit: JAXA

An artist's conception on Hayabusa 2 at asteroid 162173 Ryugu. Image credit: JAXA

We're entering the golden age of asteroid exploration, for sure. And this all comes about as the U.S. authorized asteroid mining just last week (or at least, as stated, 'asteroid utilization') under the controversial U.S. Commercial Space Launch Competitiveness Act. But the original Hayabusa mission brought back mere micro-meter-sized dust grains, highlighting just how difficult asteroid mining is using present technology…

Perhaps, for now, its more cost effective to simply wait for the asteroids to come to us as meteorites and just scoop 'em up. We'll be keeping an eye out over the next few days for images of Hayabusa-2 as it speeds by, and more postcards of the Earth-Moon system from the spacecraft as it heads towards its 2018 rendezvous with destiny.

 

 


 

 

 

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