Posts Tagged ‘Lunar Eclipse’

Our Photos from the Annular Solar Eclipse May 2012

Monday, May 21st, 2012

Brighton Astronomy Group Solar Photos:

We had an awesome yesterday in UT. I got to see my first Annular Solar Eclipse.
We made some new friends. Some of the things we noticed during the eclipse were of course the change in the light. We also watched the temperature change from 85 degrees Fahrenheit to 71 degrees Fahrenheit.
I have placed some photos in our Gallery of our Web Site under Astrophotography, then Solar.

NASA/JPL What’s Up for June 2011?

Sunday, June 5th, 2011

Source – NASA:

What’s up for June? Solar system collisions!

Winter Solstice Lunar Eclipse 12/21/2010

Tuesday, December 21st, 2010

Solstice Lunar Eclipse 12-21-10

This is the first time since nearly 400 years ago during the time of Galileo a lunar eclipse has taken place on the winter solstice, this was a rear event to been seen. The next visible total lunar eclipse in the United States will not happen until April 15, 2014

Total Lunar Eclipse of December 21 2010

Sunday, December 19th, 2010

Source – NASA: NASA Lunar Eclipse Page

The last lunar eclipse of 2010 is especially well placed for observers throughout North America. The eclipse occurs at the Moon’s descending node in eastern Taurus, four days before perigee.
The Moon’s orbital trajectory takes it through the northern half of Earth’s umbral shadow. Although the eclipse is not central, the total phase still lasts 72 minutes. The Moon’s path through Earth’s shadows as well as a map illustrating worldwide visibility of the event are shown in Figure 4. The timings of the major eclipse phases are listed below.

Penumbral Eclipse Begins: 05:29:17 UT
Partial Eclipse Begins: 06:32:37 UT
Total Eclipse Begins: 07:40:47 UT
Greatest Eclipse: 08:16:57 UT
Total Eclipse Ends: 08:53:08 UT
Partial Eclipse Ends: 10:01:20 UT
Penumbral Eclipse Ends: 11:04:31 UT

At the instant of greatest eclipse (08:17 UT) the Moon lies near the zenith for observers in southern California and Baja Mexico. At this time, the umbral magnitude peaks at 1.2561 as the Moon’s southern limb passes 2.8 arc-minutes north of the shadow’s central axis. In contrast, the Moon’s northern limb lies 8.1 arc-minutes from the northern edge of the umbra and 34.6 arc-minutes from the shadow center. Thus, the southern half of the Moon will appear much darker than the northern half because it lies deeper in the umbra. Since the Moon samples a large range of umbral depths during totality, its appearance will change dramatically with time. It is not possible to predict the exact brightness distribution in the umbra, so observers are encouraged to estimate the Danjon value at different times during totality (see Danjon Scale of Lunar Eclipse Brightness). Note that it may also be necessary to assign different Danjon values to different portions of the Moon (i.e., north vs. south).

During totality, the winter constellations are well placed for viewing so a number of bright stars can be used for magnitude comparisons. Pollux (mv = +1.16) is 25° east of the eclipsed Moon, while Betelgeuse (mv = +0.45) is 16° to the south, Aldebaran (mv = +0.87) is 20° to the west, and Capella (mv = +0.08) is 24° to the north.
The entire event is visible from North America and western South America. Observers along South America’s east coast miss the late stages of the eclipse because they occur after moonset. Likewise much of Europe and Africa experience moonset while the eclipse is in progress. Only northern Scandinavians can catch the entire event from Europe. For observers in eastern Asia the Moon rises in eclipse. None of the eclipse is visible from south and east Africa, the Middle East or South Asia.

Table 6 lists predicted umbral immersion and emersion times for 20 well-defined lunar craters. The timing of craters is useful in determining the atmospheric enlargement of Earth’s shadow (see Crater Timings During Lunar Eclipses).

The December 21 total lunar eclipse belongs to Saros 125 a series of 72 eclipses in the following sequence: 17 penumbral, 13 partial, 26 total, 9 partial, and 7 penumbral lunar eclipses (Espenak and Meeus, 2009). Complete details for the series can be found at:

Lunar Eclipse times for Mountain Time