Friday

This year's second total lunar eclipse on Saturday (Dec. 10) will offer a rare chance to see a strange celestial sight traditionally thought impossible.

Ringside seats for the lunar eclipse can be found in Alaska, Hawaii, northwestern Canada, Australia, New Zealand, and central and eastern Asia. Over the contiguous United States and Canada, the eastern zones will see either only the initial penumbral stages before moonset, or nothing at all.

Over the central regions of the United States, the moon will set as it becomes progressively immersed in the Earth's umbral shadow. The Rocky Mountain states and the prairie provinces will see the moon set in total eclipse, while out west the moon will start to emerge from the shadow as it sets.

The moon passes through the southern part of the Earth's shadow, with totality beginning at 6:06 a.m. PST and lasting 51 minutes.

For most places in the United States and Canada, there will be a chance to observe an unusual effect, one that celestial geometry seems to dictate can't happen. The little-used name for this effect is a "selenelion" (or "selenehelion") and occurs when both the sun and the eclipsed moon can be seen at the same time.

But wait! How is this possible? When we have a lunar eclipse, the sun, Earth and moon are in a geometrically straight line in space, with the Earth in the middle. So if the sun is above the horizon, the moon must be below the horizon and completely out of sight (or vice versa).

And indeed, during a lunar eclipse, the sun and moon are exactly 180 degrees apart in the sky; so in a perfect alignment like this (a "syzygy") such an observation would seem impossible.

But it is atmospheric refraction that makes a selenelion possible.

Atmospheric refraction causes astronomical objects to appear higher in the sky than they are in reality.

For example: when you see the sun sitting on the horizon, it is not there really. It's actually below the edge of the horizon, but our atmosphere acts like a lens and bends the sun's image just above the horizon, allowing us to see it.

This effect actually lengthens the amount of daylight for several minutes or more each day; we end up seeing the sun for a few minutes in the morning before it has actually risen and for a few extra minutes in the evening after it actually already has set.

The same holds true with the moon, as well.

As a consequence of this atmospheric trick, for many localities there will be an unusual chance to observe a senelion firsthand with Saturday morning's shadowy event. There will be a short window of roughly 1-to-6 minutes (depending on your location) when you may be able to simultaneously spot the sun rising in the east-southeast and the eclipsed full moon setting in the west-northwest.

Excerpt from Joe Rao's article, "Saturday's Lunar Eclipse will include 'Impossible Sight' ".


Regions of visibility

For places to the east of the Appalachian Range, this will, unfortunately, be a non-event. Although the moon will still be above the horizon when it begins to enter the Earth's shadow at 6:33 a.m. EST, it initially is the penumbral shadow that first contacts the moon.

This shadow is so faint that at least three-quarters of the moon's diameter must be immersed within it before you would have a chance of detecting it visually, either with your naked eyes or using an optical aid. That means, if you live in places such as Boston, New York or Miami, the moon will look perfectly normal as it sets.

But from southeast Ontario, through the Ohio Valley and continuing south to the central Gulf Coast, the upper-left portion of the moon will begin appearing somewhat darker or "smudged" as it begins to disappear beyond the horizon. As you head farther west, the moon's entry into the much-darker part of the Earth's shadow (the umbra) will become evident at 7:45 a.m. Eastern Time or 6:45 a.m. Central.

Across portions of the Upper Midwest, the Nation's Heartland, down into the central parts of Oklahoma and Texas, about half of the setting moon will be immersed in the umbra. The shadow will appear to be creeping almost straight down across the moon's face from its upper limb.

Across the Central and Southern Plains only the lowermost portion of the moon will remain in view as it moves down below the west-southwest horizon. Farther west and north, across the Desert Southwest and High Plains, the moon will rise completely immersed in the Earth's shadow, while for parts of the Intermountain Region, Northern California and the Pacific Northwest, the moon will begin to emerge from the umbra as it sets.

This table shows the local times of sunrise and moonset, along with the percentage of the moon's diameter that is within the dark umbral shadow at the time of moonset, for 11 selected cities. An asterisk (*) indicates that totality has already occurred and that the moon is emerging from the umbral shadow. Note that locations farther to the west have the moon and sun together in the sky for a noticeably longer interval. That's because after mid-eclipse, the moon's orbital motion has carried it a bit more to the east and thus higher up in the sky, so it remains in view a bit longer.
CREDIT: Joe Rao/SPACE.com

• Asia and Australia: visible
• Near and Middle East: visible
• Europa: partially visible
• Africa: not visible
• America: partially visible

The moment (for Central Europe)

The exact moment of the total lunar eclipse is:
Saturday, 10th December 2011, 03:31:49 pm

The totality of the eclipse takes place at:
01:45:42 pm until 05:17:58 pm

Times of moonrise and sunset:
• Berlin: moonrise 03:49 pm, sunset 03:53 pm
• Vienna: moonrise 03:58 pm, sunset 04:02 pm
• Bern: moonrise 04:42 pm, sunset 04:44 pm

Again the exact process with times:
• Partial eclipse begins 01:45:42 pm
• Total eclipse begins 03:06:16 pm
• Greatest eclipse 03:31:49 pm
• Total eclipse ends 03:57:24 pm
• Partial eclipse ends 05:17:58 pm

All data in Central European Time (CET).


Important facts to consider

In order to observe the selenelion, you should make sure that both your east-southeast and west-northwest horizons are free of any tall obstructions that might block your views of the setting moon or rising sun.

Also, keep in mind that, depending on the clarity of your sky, you might actually lose sight of the moon about 10 or 15 minutes before sunrise thanks to the brightening morning twilight and the moon sinking into any horizon haze (atmospheric "schmutz").

Keep in mind that this holds only for the uneclipsed portion of the moon. Indeed, if the moon is totally eclipsed at moonset, you will probably have to scan the western horizon as the twilight increases in order to detect the moon, which will perhaps resemble a dim and eerily illuminated softball.

Source: http://www.space.com/
Eclipsed Moon in the Morning Image Credit & Copyright: Babak Tafreshi (TWAN)

Explanation: Tomorrow, December 10, the Full Moon will slide through planet Earth's shadow in a total lunar eclipse. The entire eclipse sequence, including 51 minutes of totality, will be visible from Asia and Australia, but moonwatchers in Europe and Africa will miss out on the beginning partial phases because for them, the eclipse will start before moonrise. In central and western North America the earlier phases of the eclipse will be in progress as the Moon sets. In fact, while those in the east will miss out, North Americans far enough west could see a scene very much like this one, with a mostly eclipsed Moon low and near the western horizon during morning twilght. This morning twilight view of another lunar eclipse approaching its total phase at moonset was captured in 2008 on February 21, from the Zagros Mountains of Iran.

A Total Lunar Eclipse Over Tajikistan








Total Lunar Eclipse of 2011 Dec 10 - Lunar eclipse times and visibility
chart (pdf)

Javascript Lunar Eclipse Explorer calculator

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