07 - Mercury
at inferior conjunction with the Sun
at 15h UT.
0000Mercury
passes into the morning sky (not visible).
08 - Moon
near Mars at 1h UT (evening sky). Mag.
+1.5.
19 - Venus
at superior conjunction with the Sun
at 4h UT.
0000Passes
into the evening sky (not visible).
19 - Moon
near Saturn at 7h UT (evening sky).
Mag. +0.7.
18 - Full Moon at 17:30 UT.
20 - Moon near Jupiter at 14h
UT (morning sky). Mag. -2.7. Jupiter displays
the
0000largest
and most detailed planetary disk of all the
planets. Even a small telescope
0000will
reveal Jupiter's cloud bands and its four largest
moons known as the Galilean
0000moons
(discovered by Galileo in 1610). Jupiter has
a total of 63 moons.
20 - Pluto at opposition at
16h UT. Mag. 14. Requires at least a 10-inch
telescope and
0000a
very dark sky to view.
20 - June solstice at 23:59
UT. The time when the Sun reaches the point
farthest north
0000of
the celestial equator marking the start of summer
in the Northern Hemisphere
000
and winter in the Southern Hemisphere.
00 0 0
0 0 0//
Get the complete calendar version
at skymaps.com
7 -
The
Outrageous Tales of a Space Shuttle Astronaut
- On February 1, 1978, the first group of space shuttle
astronauts, twenty-nine men and six women, were introduced
to the world. Among them would be history makers, including
the first American woman and the first African American
in space. This assembly of astronauts would carry NASA
through the most tumultuous years of the space shuttle
program. Four would die on Challenger. Mullane vividly
portrays every aspect of the astronaut experience --
from telling a female technician which urine-collection
condom size is a fit; to walking along a Florida beach
in a last, tearful goodbye with a spouse; to a wild,
intoxicating, terrifying ride into space; to hearing
"Taps" played over a friend's grave. Mullane is brutally
honest in his criticism of a NASA leadership whose bungling
would precipitate the Challenger disaster.
Tuesday, December 27, 2005
A Special Gift From Space
This infrared view of star cluster was captured recently by orbitting infrared Spitzer space telescope. The object is called "Christmas Tree Cluster". The star forming region is located 3000 light years away in the constellation Monoceros (the Unicorn). Initially observed by amateur astronomor via small telescope, this star cluster contains intricate structure of ribbons of gas and dust swirling like snow blowing in frigid winter winds and adorned by a festive collection of brilliant young stars. A Truly wonderful holiday gift for space enthusiasts.
New Kuiper Belt Object with Strange Orbit Discovered
New object in the furthest reach of solar system known as Kuiper Belt region has been discovered. The object, nick named "Buffy" is located 58 AU or almost twice as far from the Sun as Neptune. Based on the brightness of the object it has diameter between 500 and 1000 km (300 to 600 miles). The object, which received the official designation 2004 XR 190 in the International Astronomical Union's official announcement, was discovered during routine operation of the Canada-France Ecliptic Plane Survey (CFEPS) running as part of the Legacy Survey on the Canada France Hawaii Telescope.
Measurement of Buffy's new position proved that the orbit was not only extremely tilted, inclined (tilted) at 47 degrees to the plane of the planetary system (essentially tying the record for a Kuiper belt object) but confirmed that Buffy was unlike any other previously-known object because it was on a nearly circular orbit while at a very large distance.
Why is Buffy's orbit considered so unusual? Only one other detected object, Sedna, remains further than 50 astronomical units (AUs) from the Sun throughout its entire orbit. However, Sedna is on a very elliptical orbit, swooping in to 76 AU before traveling back out beyond 900 AU. In contrast, Buffy spends all of its time in the narrow range between 52 and 62 AU from the Sun. Combined with the tilt in its orbit, this new object challenges current theories about the history of the early Solar System.
Spirit and Opportunity Rovers Now at Full Martian Year
NASA's durable twin Mars rovers have successfully explored the surface of the mysterious red planet for a full Martian year (687 Earth days). Opportunity starts its second Martian year Dec. 11; Spirit started its new year three weeks ago. The rovers' original mission was scheduled for only three months. Both rovers keep finding new variations of bedrock in areas they are exploring on opposite sides of Mars. The geological information they collect increases evidence about ancient Martian environments including periods of wet, possibly habitable conditions. Spirit is descending from the top of "Husband Hill" to examine a platform-like structure seen from the summit. It will then hurry south to another hill in time to position itself for maximum solar-cell output during the winter. Opportunity is examining bedrock exposures along a route between Endurance and Victoria craters. It recently reached what appears to be a younger layer of bedrock than examined inside Endurance. In Endurance, the lowest layers of bedrock were deposited as windblown dunes. Some of the upper layers were deposited as underwater sediments, indicating a change from drier to wetter conditions over time.
A team of scientists using ground based-telescope and orbitting space telescopes have made a discovery of a brown dwarf or a failed star in the process of forming planetary system. The brown dwarf, called Cha 110913-773444, lies 500 light years away in the constellation Chamaeleon and has 10 times the mass of Jupiter or less than one-hundredth the mass of the Sun. The discovered object was the smallest star known to have protoplanetary disk that one day would form rocky and gaseous planets, which constitute a mini solar system.
Brown dwarfs are born like stars, condensing out of thick clouds of gas and dust. But unlike stars, brown dwarfs do not have enough mass -- and therefore do not have enough pressure and temperature in their cores -- to sustain nuclear fusion. They remain relatively cool objects visible in lower-energy wavelengths such as infrared. A protoplanetary disk is a flat disk made up of dust and gas that is thought to clump together to form planets. Our solar system was formed from such a disk about five billion years ago. NASA's Spitzer telescope has found dozens of disk-sporting brown dwarfs so far, several of which show the initial stages of the planet-building process. The material in these disks is beginning to stick together into what may be the "seeds" of planets.
The
Oort cloud, is a postulated spherical cloud
of comets situated about 50,000 to 100,000 AU from
the Sun. This is approximately 1000 times the distance
from the Sun to Pluto or roughly one light year, almost
a quarter of the distance from the Sun to Proxima
Centauri, the star nearest the Sun. The Oort cloud
would have its inner disk at the ecliptic from the
Kuiper belt. Although no direct observations have
been made of such a cloud, it is believed to be the
source of most or all comets entering the inner solar
system (some short-period comets may come from the
Kuiper belt), based on observations of the orbits
of comets. Source: Wikipedia
