Celestial Highpoints of 2014

Most Interesting Celestial Events of 2014

astronomical events 2014What astronomical phenomena will be observable to people in different parts of the Earth this year?

2014 will be saturated with celestial events in respect of comets and asteroids, but less intense and interesting in respect of eclipses.

First on the list is a lunar eclipse which will occur on April 15 and will last 1 hour 19 minutes. Only the inhabitants of North and South America will be able to see the complete eclipse.

In 2 weeks after that, on April 29, a partial solar eclipse will take place when the Moon will cover the sun only partially. The eclipse will reach its maximum phase in Antarctica and will be observable to the inhabitants of Australia and Tasmania. The eclipse will last only 6 minutes.

The next eclipse will be a full moon, which will take place on October 8. This time, the eclipse will be seen to the inhabitants of North America, the eastern part of Russia, Australia, New Zealand and some other Pacific islands. This eclipse is interesting because during the total phase the Moon will cover Uranus.

Last eclipse of the list is a partial solar eclipse, which will happen on October 23 and will be visible in North America and eastern Russia.

The brightest asteroid of this year will be Vesta, one of the largest asteroids in the main asteroid belt. Its brightness is expected to peak in April when it will be visible with the naked eye. The second brightest asteroid will be Pallas, which is larger than Vesta and ranks first in size among all the asteroids in the main asteroid belt. Pallas will be seen later this month. Among the other most interesting asteroids, Hebe and Juno are worth noting.

Some sources mistakenly attributed Ceres to the asteroids and included it in the list above. However, Ceres had been considered an asteroid till August 24, 2006, when it was classified as a dwarf planet.

The bigger an asteroid is, the more sunlight it reflects. However, the brightness of an asteroid is heavily dependent on the albedo (reflectivity characteristics of its surface), which in turn is determined by the composition of its constituent species. For example, the asteroid Vesta reflects 4 times more light than the dwarf planet Ceres because of the high albedo of the surface and is the most visible asteroid in the sky, which often can be seen even with the naked eye.

The brightest comets will be 154P (P/Brewington), C/2011 W3 (Lovejoy), C/2012 X1 (LINEAR), C/2012 K1 (PanSTARRS) and C/2013 A1 (McNaught). The list may vary depending on the expected increase in brightness and the discovery of new comets.

from:    http://www.learning-mind.com/most-interesting-celestial-events-of-2014/

Of Gamma Ray Bubbles and Dark Matter

MILKY WAY’S GAMMA RAY BUBBLES SHAPED BY DARK MATTER?

Amy Shira Teitel
Analysis by Amy Shira Teitel
Tue May 8, 2012 11:37 AM ET

Gamma-ray-bubbles

Dark matter, the elusive stuff that makes up a substantial portion of all the mass in the universe, is largely a mystery to astronomers. They’ve tried finding it and creating it, but so far no conclusive proof as to what exactly it is though most theories state that we interact with it through gravity.

But Christoph Weniger, of the Max Planck Institute for Physics in Munich, has a different theory to explain new possible evidence for dark matter. By carrying out statistical analysis of three and a half years worth of publicly available data from NASA’s Fermi Space Telescope, he’s found a gamma ray line across the sky that he says is a clear signature of dark matter.

Astrophysicists generally think that supermassive black holes, like the one at the center of the Milky Way, release jets that interact with surrounding dark matter. This interaction is thought to be the source of high-energy gamma rays that satellites like Fermi can detect. What satellites can see are the photons produced when these jets interact with dark matter.

Weniger looked for signs of such an interaction in about three and a half years worth of gamma-ray observations carried out by the Fermi satellite’s Large Area Telescope (LAT).

To increase his chances of success he only considered data from those regions of the Milky Way that should generate the highest ratios of dark-matter photons to photons from background sources. He was looking specifically for a peak in energy, a sign that a photon was produced by the collision between and annihilation of two particles; the photon left over should have the same mass as one dark matter particle. This energy would theoretically appear as a very narrow peak, a line in gamma-ray spectra, distinct from the broad energy distribution seen across the visible universe.

That’s just what he found — a line in the gamma ray spectrum.

But he’s quick to admit it’s a provisional result. His data points come from about 50 photons and he’ll need a lot more to prove conclusively that his line is related to dark matter. It’s possible the line he observed is from a known, though no less mysterious, astronomical phenomenon: the pair of enormous gamma-ray-emitting bubbles extending outwards from the plane of the Milky Way.

In December 2010, scientists working with the Fermi Space Telescope found two giant lobes extending from the black hole at the center of our galaxy.

Twenty-five thousand light years high, each bubble spans more than half of the visible sky reaching from the constellation Virgo to the constellation Grus and may be relatively young at just a million or so years old.

The bubbles are a recent find, normally masked by the fog of gamma rays that appears throughout the sky that is a result of particles moving near the speed of light interacting with light and interstellar gas in the Milky Way. Scientists only found the bubbles by manipulating the data from the LAT to draw out the striking feature.

The manipulated images show the bubbles have well defined edges, suggesting they were formed as a result of a large and relatively rapid energy release — the source of which is still unknown. Interestingly, the energy cutoff of the bubbles corresponds to the gamma ray line Weniger found, the one he’s associating with a dark matter signature.

It’s possible the bubbles and the line have the same origin. Or, dark matter might be the cause of the bubbles’ defined endpoint.

Whether or not the two observations turn out to be linked — which of course hinges on conclusive proof of Weniger’s gamma ray line — both are very cool and part of the fascinating and mystery nature of our corner of the universe.

Image credit: NASA-Goddard

from:   http://news.discovery.com/space/dark-matter-and-gamma-ray-lobes-light-up-the-visible-universe-120508.html

This Galaxy is a Real Square

Strange Square-Shaped Galaxy Discovered

 

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An international team of astronomers discovered a rectangular‑shaped galaxy within a group of 250 galaxies some 70 million light years away. “In the Universe around us, most galaxies exist in one of three forms: spheroidal, disc-like, or lumpy and irregular in appearance,” said Alister Graham from Swinburne University of Technology.

He said the rare rectangular-shaped galaxy was a very unusual object. “It’s one of those things that just makes you smile because it shouldn’t exist, or rather you don’t expect it to exist. It’s a little like the precarious Leaning Tower of Pisa or the discovery of some exotic new species which at first glance appears to defy the laws of nature.”The unusually shaped galaxy was detected in a wide field-of-view image taken with the Japanese Subaru Telescope for an unrelated program by Swinburne astrophysicist Dr Lee Spitler.The astronomers suspect it is unlikely that this galaxy is shaped like a cube. Instead, they believe that it may resemble an inflated disc seen side on, like a short cylinder.

Support for this scenario comes from observations with the giant Keck Telescope in Hawaii, which revealed a rapidly spinning, thin disc with a side‑on orientation lurking at the centre of the galaxy. The outermost measured edge of this galactic disc is rotating at a speed in excess of 100,000 kilometres per hour.

“One possibility is that the galaxy may have formed out of the collision of two spiral galaxies,” said Swinburne’s Professor Duncan Forbes, co‑author of the research. “While the pre-existing stars from the initial galaxies were strewn to large orbits creating the emerald cut shape, the gas sank to the mid‑plane where it condensed to form new stars and the disc that we have observed.”

Despite its apparent uniqueness, partly due to its chance orientation, the astronomers have managed to glean useful information for modelling other galaxies.While the outer boxy shape is somewhat reminiscent of galaxy merger simulations which don’t involve the production of new stars, the disc-like structure is comparable with merger simulations involving star formation.

“This highlights the importance of combining lessons learned from both types of past simulation for better understanding galaxy evolution in the future,” said Associate Professor Graham.“One of the reasons this emerald cut galaxy was hard to find is due to its dwarf-like status: it has 50 times less stars than our own Milky Way galaxy, plus its distance from us is equivalent to that spanned by 700 Milky Way galaxies placed end-to-end.“Curiously, if the orientation was just right, when our own disc-shaped galaxy collides with the disc-shaped Andromeda galaxy about three billion years from now we may find ourselves the inhabitants of a square looking galaxy.”

The results will be published in The Astrophysical Journal.More information: Pre-publication: http://arxiv.org/p … 3.3608v1.pdf

The Daily Galaxy via Swinburne University of Technology

from:    http://www.dailygalaxy.com/my_weblog/2012/03/strange-square-shaped-galaxy-discovered.html#more

Help Rename New Mexico’s Very Large Array Radio Telescope

VLA New MexicoThe NRAO’s VLA facility just west of Socorro, New Mexico is completing a decade long state-of-the-art electronics infrastructure upgrade bringing its capabilities well into the 21st century, some say even surpassing that of the recently activated VLT in Chile. To commemorate this milestone, the NRAO is holding a renaming contest at namethearray.org. The organization desires a new name that will both embody the landmark work the VLA has provided for over 30 years and express its significance as a leader in radio astronomy observations.
Your entry will be competing with some of the best minds in community and you have 6 weeks to meet the deadline of December 1st, 2011.

Source

“Observe the Moon” Night 10/08

‘Observe the Moon Night’ to Light Up Skywatchers on Saturday

by Denise Chow, SPACE.com Staff Writer
Date: 07 October 2011 Time: 02:54 PM ET
A setting, waning crescent moon amid the thin line of Earth's atmosphere.
A setting, waning crescent moon amid the thin line of Earth’s atmosphere.
CREDIT: NASA

This weekend, the nearly full moon will to take center stage Saturday night for skywatchers around the world.

Amateur astronomers and casual stargazers are gearing up for the second annual International Observe the Moon Night on Saturday (Oct. 8), in what promises to be a fun and stimulating public event, organizers say.

NASA and lunar enthusiasts the world over are set to celebrate Earth’s natural satellite tomorrow in a worldwide event designed to engage people in lunar science and education. Space enthusiasts and the general public are invited to gather together, look up, and learn more about the enchanting moon

nternational Observe the Moon Night got its start after two earlier NASA celebrations that aimed to spark interest and enthusiasm about Earth’s nearest neighbor in the sky.

The full moon is expected to peak on Oct. 12, but it will be the smallest and most distant full moon of the year. This year’s International Observe the Moon Night also coincides with the peak of the Draconid meteor shower, which is expected to deliver hundreds of “shooting stars” per hour. But, the meteor shower’s peak could be largely invisible to skywatchers, since it occurs during daylight hours in NorthAmerica, and elsewhere, the nearly full moon will likely outshine the pretty light show.

Several NASA centers, such as the Ames Research Center in Mountain View, Calif., Goddard Space Flight Center in Greenbelt, Md., and the Marshall Space Flight Center in Huntsville, Ala., will host public events tomorrow night.

The event organizers include scientists, educators and moon buffs from government, non-profit organizations and businesses across the U.S. and the world.

“We believe in the inspirational power of the moon — a celestial body that has influenced human lives since the dawn of time,” the event’s website reads. “Through International Observe the Moon Night, we hope [to] instill in the public a sense of wonderment and curiosity about our moon.”

Last year, there were 278 moon-watching events in more than 40 countries, including China, Germany and Egypt.

NASA has one spacecraft circling the moon, a pair of small spacecraft that recently entered into the moon’s orbit, and a pair of twin probes that are expected to arrive at the moon by New Year’s Day.

The unmanned Lunar Reconnaissance Orbiter has been circling the moon since June 2009. The car-size spacecraft recently snapped images of three Apollo landing sites that revealed new details about the regions on the moon that were visited by humans. The $504 million probe is currently on an extended mission through at least September 2012.

The two small Artemis probes, which stand for Acceleration, Reconnection, Turbulence and Electrodynamics of the Moon’s Interaction with the Sun, began their lunar orbit journey over a year and a half ago. This summer, both probes entered into lunar orbit, where they will study the moon’s interior and surface composition.

Last month, NASA successfully launched two identical spacecraft on a mission to unlock mysteries of the moon that are hidden beneath its surface. The $496 million Grail mission (short for Gravity Recovery And Interior Laboratory) will closely study the interior of the moon, from crust to core, and will map the moon’s gravitational field in unprecedented detail.

for more, go to:    http://www.space.com/13224-international-observe-moon-night-2011.html

Archaeogeodesy

Archaeogeodesy can be defined as that area of study encompassing prehistoric and ancient place determination, navigation (on land or water), point positioning, measure and representation of the earth, geodynamic phenomena, and the applied astronomy. Archaeogeodesy, by combining fundamental astronomy, geodetic knowledge, applied mathematics, accurate positional data and archaeology, presents a methodology for investigating the architecture, placements, spatial properties, relationships and arrangements of prehistoric sites and monuments. As a new area of inquiry, archaeogeodesy presents unique avenues of assessing ancient understandings of geography, of place, and of the earth and the cosmos as evidenced by archaeological remains.

Miamisburg Mound, Ohio

We generally regard temporally, spatially and culturally diverse ancient monuments as unrelated. The many pyramids of Egypt, whether stepped, bent, or true, have interrelationships, however understudied. What of the other pyramids and similar mounds dispersed the world over? Few would argue no relationship between neighboring earthworks in North America, for example, yet their similarities to Neolithic mounds and circular embankments of the British Isles go relatively unnoticed. Visitors to Stonehenge and other stone circles who notice surrounding earthworks are unlikely to postulate connections, spatial or functional, to similar earthen monuments in distant Ohio because of an intervening ocean.

for more, go to:   http://jqjacobs.net/astro/aegeo.html