NASA Extends Cassini's Grand Tour of Saturn

MEDIA RELATIONS OFFICE
JET PROPULSION LABORATORY
CALIFORNIA INSTITUTE OF TECHNOLOGY
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION
PASADENA, CALIF. 91109 TELEPHONE 818-354-5011
http://www.jpl.nasa.gov

Dwayne Brown 202-358-1726
NASA Headquarters, Washington
dwayne.c.brown@nasa.gov

Carolina Martinez 818-354-9382
Jet Propulsion Laboratory, Pasadena, Calif.
carolina.martinez@jpl.nasa.gov

NEWS RELEASE: 2008-060                                  April 15, 2008

NASA Extends Cassini's Grand Tour of Saturn

PASADENA, Calif. -- NASA is extending the international Cassini-Huygens mission by two
years. The historic spacecraft's stunning discoveries and images have revolutionized our
knowledge of Saturn and its moons.

Cassini's mission originally had been scheduled to end in July 2008. The newly-announced two-
year extension will include 60 additional orbits of Saturn and more flybys of its exotic moons.
These will include 26 flybys of Titan, seven of Enceladus, and one each of Dione, Rhea and
Helene. The extension also includes studies of Saturn's rings, its complex magnetosphere, and
the planet itself.

"This extension is not only exciting for the science community, but for the world to continue to
share in unlocking Saturn's secrets," said Jim Green, director, Planetary Science Division, NASA
Headquarters, Washington. "New discoveries are the hallmarks of its success, along with the
breathtaking images beamed back to Earth that are simply mesmerizing."

"The spacecraft is performing exceptionally well and the team is highly motivated, so we're
excited at the prospect of another two years," said Bob Mitchell, Cassini program manager at
NASA's Jet Propulsion Laboratory in Pasadena, Calif.

Based on findings from Cassini, scientists think liquid water may be just beneath the surface of
Saturn's moon Enceladus. That's why the small moon, only one-tenth the size of Titan and one-
seventh the size of Earth's moon, is one of the highest-priority targets for the extended mission.

Cassini discovered geysers of water-ice jetting from the Enceladus surface. The geysers, which
shoot out at a distance three times the diameter of Enceladus, feed particles into Saturn's most
expansive ring. In the extended mission, the spacecraft may come as close as 25 kilometers (15
miles) from the moon's surface.

Cassini's observations of Saturn's largest moon, Titan, have given scientists a glimpse of what
Earth might have been like before life evolved. They now believe Titan possesses many parallels
to Earth, including lakes, rivers, channels, dunes, rain, snow, clouds, mountains and possibly
volcanoes.

"When we designed the original tour, we really did not know what we would find, especially at
Enceladus and Titan," said Dennis Matson, the JPL Cassini project scientist. "This extended tour
is responding to these new discoveries and giving us a chance to look for more."

Unlike Earth, Titan's lakes, rivers and rain are composed of methane and ethane, and
temperatures reach a chilly minus 180 degrees Celsius (minus 290 degrees Fahrenheit). Although
Titan's dense atmosphere limits viewing the surface, Cassini's high-resolution radar coverage and
imaging by the infrared spectrometer have given scientists a better look.

Other activities for Cassini scientists will include monitoring seasons on Titan and Saturn,
observing unique ring events, such as the 2009 equinox when the sun will be in the plane of the
rings, and exploring new places within Saturn's magnetosphere.

Cassini has returned a daily stream of data from Saturn's system for almost four years. Its travel
scrapbook includes nearly 140,000 images, and information gathered during 62 revolutions
around Saturn, 43 flybys of Titan and 12 close flybys of the icy moons.

More than 10 years after launch and almost four years after entering into orbit around Saturn,
Cassini is a healthy and robust spacecraft. Three of its science instruments have minor ailments,
but the impact on science-gathering is minimal. The spacecraft will have enough propellant left
after the extended mission to potentially allow a third phase of operations. Data from the
extended mission could lay the groundwork for possible new missions to Titan and Enceladus.

Cassini launched Oct. 15, 1997, from Cape Canaveral, Fla., on a seven-year journey to Saturn,
traversing 3.5 billion kilometers (2.2 billion miles). It is one of the most scientifically capable
spacecraft ever launched, with a record 12 instruments on the orbiter and six more instruments
on the European Space Agency's Huygens probe, which piggybacked a ride to Titan on Cassini.
Cassini receives electrical power from three radioisotope thermoelectric generators, which
generate electricity from heat produced by the natural decay of plutonium. The spacecraft was
captured into Saturn orbit in June 2004 and immediately began returning data to Earth.

More information is available at: http://www.nasa.gov/cassini  and http://saturn.jpl.nasa.gov .

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency
and the Italian Space Agency. JPL, a division of the California Institute of Technology in
Pasadena, manages the Cassini-Huygens mission for NASA's Science Mission Directorate,
Washington. The Cassini orbiter was designed, developed and assembled at JPL.

-end-

Luna and the Seven Sisters

Space Weather News for Monday, April 7, 2008
http://spaceweather.com

SUNSET ALERT: When the sun goes down tonight, step outside and look west.  Weather permitting you'll see a slender equinox crescent Moon hanging above the rosy glow of sunset.  Framed by the cobalt blue of early evening, the Moon reveals its "da Vinci glow" or Earthshine, a pale impression of the full Moon inside the vivid crescent--a beautiful sight.

Consider it an appetizer for Tuesday. On April 8th, the still-slender crescent passes almost directly in front of the Pleiades star cluster.  Also known as the Seven Sisters, the dipper-shaped Pleiades are visible to the naked eye even from urban areas and they look wonderful through binoculars.  Tuesday evening's delicate conjunction of Luna and the Seven Sisters should not be missed.

Visit http://spaceweather.com for sky maps, photos and more information.

LYRA AND KAG COMET REPORT AND UPCOMING EVENTS FOR APRIL AND INTO THE SUMMER..........

COMETS:

Comet 17P/Holmes: is now fading and expanding into the dark background sky in the Constellation Of Perseus-it was fantastic to see it through my 20x100 mounted big Binoculars during late October and into November and December of 2007 as well as these past Months during the start of this year 2008 it has now expanded out so much that it can quite easily be overlooked, its trend is to fade now and is best seen in the evening sky still in the Constellation of Perseus not far from Algol.

Comet 8P/Tuttle: is currently around Magnitude 8 and its trend is also to fade, it did become Binocular visible passing 0.25 AU from the Earth and I managed to glimpse this on about one night before it moved rapidly Southwards and at this time it was around magnitude 6, it is now past Perihelion and closest to the Earth, this was one of its closest passes to the Earth since before its discovery although there will be a closer pass in 2048, it is now moving through the Constellation of Dorado and is a Southern hemisphere object.

Comet Chen Gao 2008 C1: is currently at Magnitude 10 in the constellation of Auriga and should have just scraped past Capella the main star in that Constellation on 3rd of April, it should stay around magnitude 10 for most of April and after then fade.

Comet 29P/Schwassmann Wachmann is fading from Magnitude 12.7 to Magnitude 13 through April and into May in the Constellation of Auriga and into Gemini skirting through Taurus the Bull.

Comet 46P/Wirtanen will fade from Magnitude 10.4 to Magnitude 14.8 during April and into May also in the Constellation of Auriga going through Gemini and into Cancer.

 

UPCOMING COMETS TO LOOK OUT FOR:

1 possible upcoming Comet that may reach Binocular brightness during this year and one in 2009 are:

C/2007 W1 Comet Boattini which will be Magnitude 8.8 by the beginning of May 2008 this year before shortly being lost 10 days later to the South Western Evening Twilight and in the next month around June 20th it should reach a brightness of 5.5 although will be in a daylight sky and won't be able to be Observed until it returns in the very early morning Twilight during mid July at Magnitude 6.9 to 7, it will have faded and be beyond magnitude 10 by the end of the Summer around late August so not a good viewing window for this one either side of the Summer Solistice but its one I will be looking out for during the Summer months to add to the 20 or so Comets I have already seen and Observed over the past 13 or so years.

Another Comet that may become Binocular Bright in 2009 of next year is C/2007 N3 Lulin which will become Observable after the new year 2009 in January in the early morning skies around magnitude 8 becoming Binocular bright in the Winter skies of Feburary whilst entering the Evening skies around the 12th of that month and becoming a good viewing Object around magnitude 5.9 on the 20th moving from Virgo into Leo and not starting to fade much before mid March when it will be Magnitude 8.5.

Once I do see and Observe these Comets I will send out text and Email alerts to notify Observers in where best to look for these Comets.

 

APRIL PHENOMENA:

9th April Asteroid (7) Iris at opposition.

12th April Mars 1.2 Degrees South of the Moon.

15th April Regulus in Leo is 0.9 Degrees North of the Moon and Saturn will be 3 Degrees North of the Moon.

16th April Mercury is in Superior Conjuction.

18th April Juno Becomes stationary.

22nd April Lyrid Meteor Shower with a usual maximun ZHR of +-10 is unfavourable due to a 2 day past full Moon (Gibbous) rising around 22.09 Hours U.T on that Evening.

23rd April Antares will be 0.3 Degrees North of the Moon.

27th April Jupiter will be 3 Degrees North of the Moon.

28th April Mars will have moved within five Degrees of Pollux in Gemini.

 

ISS sightings-there has been some good evening passes of the ISS as well as the ATV (automated transport vehicle) last week and into this week and is well worth going outside to look at-timings of these passes can be obtained off the Heavens above website which address is at the bottom of this page.

PLANETS:
Mercury: Will become an Evening Apparition in late April low on the Western Horizon and will become the best seen during May this year setting about an Hour after Sunset.

Venus: will be too close to the Sun for any kind of Observation.

Mars: Still reatains a very good Evening Observing window but is starting to shrink by the end of April.
Jupiter: Is in the South Eastern sky 3 Hours before Surise and by the end of April will rise around 02.00 Hours U.T.
Saturn: Close to the Main Star Regulus in Leo and by the End of April it will Culminate in strong Twilight.
Uranus and Neptune: Uranus is just past Conjuction and will not return to the Morning sky as yet and Neptune may just be glimpsed with giant Binoculars in the South Eastern Morning Twilight near the end of April.

Dwarf Planet Pluto: Is a Morning object now amongst the stars of Sagittarius

THE MOON: Last Quarter was on 29th March, New Moon was on the 6th April and first quarter is on the 12th April, full Moon will occur on the 20th April and last quarter occurs on the 28th April.

 

LUNAR ECLIPSE:

Feburary 21st I got to see a total Lunar clipse of the Moon from my living room window during the early hours of that morning-although a cloud and slight haze obscurred it from view quite a bit around the time of totality which occured around 03.00 Hours U.T  I still got to observe some of it through breaks and clearing patches of cloud-it was a brownish bland colour with with a slight hint of coppery red and a little brighter towards the lower limb-certainly not as bright as the Lunar Eclipse some of the Lyra Observers witnessed back on 3rd March 2007 (03-04) I was pretty certain I could see very small flashes of light on the surace of the Moon during Totality and I'm sure I have seen these occurences in past Lunar Eclipses also-my theory is that it could be rocks on the surface of the Moon cooling rapidly once in shadow and exploding causing a small flash-this sudden surface cooling could account for a number of rocks exploding and causing flashes I thought I see through my 20x100 mounted binoculars on that night-but I remain sceptical about it.

Lighting up times: (all times BST)

1st April was 20.04 Hours

30th April will be 20.52 Hours

1st May will be 20.54 Hours

31s May will be 21.37 Hours

Websites:

Lyra Blogsite: www.lyrandgyastronomers.blogspot.com plenty of Astronomical information and updates.
www.heavens-above.com ISS, Iridium flares and Satellite pass timings.
www.popastro.com The Society for popular Astronomy website.
www.britastro.org/baa/ The British Astronomical association website.
www.bbc.co.uk/science/space/spaceguide/skyatnight/ The sky at night website.

www.nasa.gov/ a good nasa website with plenty of information.

http://hubblesite.org The Hubble space telescope website.
www.skyandtelescope.com  another good Astronomy information site.
www.spaceweather.com Good information site with up to the minute reports on space travel etc.

www.eclipse.org.uk an excellent site for planning future Eclipses.

 

Weather:

www.weatherforlowestoft.co.uk weather in Kessingland and surrounding areas.

www.metcheck.com another good weather information site.

Spaceflight Now-ATV/Jules Verne Preliminary Rendezvous Timeline

ATV/Jules Verne Preliminary Rendezvous Timeline:

 

SPACEFLIGHT NOW

 

Posted: March 27, 2008

 

NOTE: GMT is +4 hours ahead of Eastern Daylight Time.

 

Demo Day 1March 29, 2008

1419 GMT....S-1/2 hold point. Distance: 24.2 miles (39 km) behind and 3.1 miles (5 km) below space station.

1505 GMT....S1 hold point. Distance: 9.6 miles (15.5 km) behind and 3.1 miles (5 km) below space station.

1551 GMT....S2 hold point arrival. Distance: 2.2 miles (3.5 km) behind and 328 feet (100 m) above space station.

1551 - 1729 GMT....Turn on external lights; KURS activation; crew command tests.

1729 GMT....ESCAPE. The ATV control center sends an escape command for Jules Verne to fly away from the vicinity of the space station.

 

Demo Day 2March 31, 2008

1226 GMT....S-1/2 hold point. Distance: 24.2 miles (39 km) behind and 3.1 miles (5 km) below space station.

1312 GMT....S1 hold point. Distance: 9.6 miles (15.5 km) behind and 3.1 miles (5 km) below space station.

1358 GMT....S2 hold point arrival. Distance: 2.2 miles (3.5 km) behind and 328 feet (100 m) above space station.

1358 - 1430 GMT....Turn on external lights; KURS activation; begin using relative GPS.

1430 GMT....S2 hold point departure.

1510 GMT....S3 hold point arrival. Distance: 817 feet (249 m) behind space station.

1510 - 1547 GMT....Activate videometer and telegoniometer instruments; ATV-CC GO/NO-GO.

1547 GMT....S3 hold point departure.

1553 GMT....RETREAT test.

1555 GMT....HOLD test.

1559 GMT....RESUME test.

1613 GMT....S4 hold point arrival. Distance: 62 feet (19 m) behind space station.

1613 - 1628 GMT....Pointing maneuver; ATV-CC GO/NO-GO.

1628 GMT....S4 hold point departure.

1631 GMT....S41 hold point arrival. Distance: 36 feet (11 m) behind space station.

1634 GMT....RETREAT. The space station crew sends a retreat command through the ATV's proximity link system.

1636 GMT....S4 hold point arrival. Distance: 62 feet (19 m) behind space station.

1638 GMT....ESCAPE. The space station crew sends an escape command for Jules Verne to fly away from the vicinity of the complex.

 

DockingApril 3, 2008

1033 GMT....S-1/2 hold point. Distance: 24.2 miles (39 km) behind and 3.1 miles (5 km) below space station.

1119 GMT....S1 hold point. Distance: 9.6 miles (15.5 km) behind and 3.1 miles (5 km) below space station.

1205 GMT....S2 hold point arrival. Distance: 2.2 miles (3.5 km) behind and 328 feet above space station.

1205 - 1237 GMT....Turn on external lights; KURS activation; begin using relative GPS.

1237 GMT....S2 hold point departure.

1317 GMT....S3 hold point arrival. Distance: 817 feet (249 m) behind space station.

1317 - 1354 GMT....Activate videometer and telegoniometer instruments; ATV-CC GO/NO-GO.

1354 GMT....S3 hold point departure.

1415 GMT....S4 hold point arrival. Distance: 62 feet (19 m) behind space station.

1415 - 1430 GMT....Pointing maneuver; ATV-CC GO/NO-GO.

1430 GMT....S4 hold point departure.

1433 GMT....S41 hold point arrival. Distance: 36 feet (11 m) behind space station.

1433 - 1438 GMT....ATV-CC GO/NO-GO.

1438 GMT....S41 hold point departure.

1441 GMT....CAPTURE. Jules Verne's forward docking cone is captured by the aft port of the station's Zvezda service module.

1515 GMT....Hooks begin closing to firmly attach Jules Verne to the space station.

Data Source: ESA