Full Moon NOW!! It’s a Werewolf Moon!!! Science story:
Feb 18th
The full moon of February is known as the wolf moon.
Amateur astronomers have a love-hate relationship with the full moon. While beautiful to look at, the full moon also floods the night sky with natural “light pollution,” dimming otherwise visible stars and especially the astronomers’ favorite deep sky objects.
The full moon of February, known as the Wolf Moon, will arrive Friday (Feb. 18).
While some astronomers may opt to watch reruns of the space science TV show “Cosmos” when their precious deep sky targets are too faint to see, they are missing one of the special treats of astronomy: observing the full moon with only their eyes, or perhaps binoculars.
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Each full moon during the year has a traditional name in different human cultures. February’s full moon is best known as the Wolf Moon among some Native American tribes.
The Algonquian peoples of North America called it the Snow Moon. Other names are Hunger Moon, Storm Moon, and Candles Moon. In Hindi it is known as Magh Poornima. Its Sinhala (Buddhist) name is Navam Poya.
The official time of the full moon this month is Feb. 18 at 8:36 Universal Time. The full moon takes place at exactly the same time everywhere in the world, but the local time depends on the time zone.
For people in eastern North America that is Eastern Standard Time: 3:36 a.m. EST. On the west coast it’s at 12:36 a.m. PST
Full moon mechanics revealed
For some people, the fact that the full moon has specific date and time (rather than an entire night) may be puzzling. But it’s really all about geometry and moon mechanics.
When the sun, Earth and moon – in that order – fall in a straight line, or as close to a straight line as they can get, the moon is full. Because the moon’s orbit is slightly tilted to the ecliptic, there is usually a slight kink in the lineup, and the Earth’s shadow passes above or below the moon.
That’s why there is not a lunar eclipse every month.
This is also the only time in the month when the moon is exactly opposite the sun in Earth’s sky. On this date, and this date only, the moon rises as the sun sets, shines all night long, and sets as the sun rises.
Every other night in the month, there is at least a little time each night when the moon is not in the sky. By the same token, there is at least a bit of time when the moon is in the daytime sky.
The rising full moon often appears large and has an orange or red hue. The large size is an optical illusion; the moon is always the same size no matter where it is in the sky.
The color (except during a lunar eclipse) is just due to light being scattered in the Earth’s atmosphere.
“Seas” of the moon
It’s amazing how much detail can be seen on the full moon with just the naked eye.
Notice first the difference between the darker top half of the moon and the brighter bottom half, caused by the different reflecting power of the northern half’s predominant lava plains (called “seas” by early astronomers) and the south’s mountainous highlands.
The top half of the moon is clearly divided into three major “seas”: left to right (in the northern hemisphere) they are the Mare Imbrium, Mare Serenitatis and Mare Crisium. Those are the fanciful Latin names, which translate to: Sea of Rains, Sea of Serenity, and Sea of Crises.
Two prominent craters mark the moon’s equator: Aristarchus on the left and Copernicus towards the center. South of these is the Oceanus Procellarum, the Ocean of Storms.
The brighter highlands that make up the southern half of the moon are dominated by the brilliant white crater Tycho and its complex system of rays. The asteroid that formed Tycho sent material flying in all directions in low orbit, only to be deposited on the darker underlying surface.
Although the full moon is an instantaneous event, the moon looks full to the naked eye for a day or two on either side of the instant of full moon.
This article was provided to SPACE.com by Starry Night Education, the leader in space science curriculum solutions.
Source: Space, Starry Night Software
Food and Faith Discussion: St. Andrew’s Presbyterian Church, 3700 Baseline, Boulder
Feb 18th
Wednesday, Feb. 23
7-9 p.m.
At St. Andrew’s Presbyterian Church, 3700 Baseline, Boulder .
7-9 p.m.
At St. Andrew’s Presbyterian Church, 3700 Baseline, Boulder .
Last fall, the St. Andrew’s Presbyterian Church and the Interfaith Working Group for Economic Justice collaborated on a film series addressing many issues related to food production, distribution and justice. This discussion will continue to examine the implications of our food choices from a faith perspective for ourselves, other species, our society and the environment. Everyone is invited to attend. The event is free.
More info for the public: 303-444-6981 ext. 2
SPACE WEATHER DISRUPTS COMMUNICATIONS, THREATENS OTHER TECHNOLOGIES ON EARTH, SAYS CU-BOULDER PROF
Feb 18th
A powerful solar flare has ushered in the largest space weather storm in at least four years and has already disrupted some ground communications on Earth, said University of Colorado Boulder Professor Daniel Baker, an internationally known space weather expert.
Classified as a Class X flare, the Feb. 15 event also spewed billions of tons of charged particles toward Earth in what are called coronal mass ejections and ignited a geomagnetic storm in Earth’s magnetic field, said Baker, director of CU-Boulder’s Laboratory for Atmospheric and Space Physics. Such powerful ejections can cause a variety of socioeconomic and safety issues ranging from the disruption of airline navigation systems and power grids to the safety of airline crews and astronauts.
“The sun is coming back to life,” said Baker, who chaired a 2008 National Research Council committee that produced a report titled “Severe Space Weather Events — Understanding Societal and Economic Impacts.” For the past several years the sun has been in its most quiescent state since early in the 20th century, said Baker.
From a scientific standpoint a class X event — the most powerful kind of solar flare — is exciting, said Baker, also a CU-Boulder professor in the astrophysical and planetary sciences department. “But as a society, we can’t afford to let our guard down when operating spacecraft in the near-Earth environment.”
According to the National Oceanic and Atmospheric Administration, several more coronal mass ejections may reach Earth’s atmosphere in the next day or two.
“Human dependence on technology makes society more susceptible to the effects of space weather,” Baker said. “But scientists and engineers have made great strides in recent decades regarding this phenomenon.
“We understand much more about what is happening and can build more robust systems to withstand the effects,” Baker said. “It will be interesting to see how well our technological systems will withstand the rigors of space weather as the sun gets back to higher activity levels.”
Baker also spearheaded a 2006 NRC report titled “Space Radiation Hazards and the Vision for Space.” The report considered the effects of space weather events on human explorers venturing beyond low-Earth orbit. The National Research Council is a federal organization created by the National Academy of Sciences.
-CU Media release-
