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[Centaur]

The Full Moon of 2011 MAR 19 will occur near the time of perigee. The Moon was most recently closer during the Full Moon of 2008 DEC, not 1993 as reported in the popular media. Unfortunately for us North Americans, it will be daytime with the Moon beneath the horizon when it is most fully illuminated and at the time of perigee. For us the nights of March 18/19 and March 19/20 will serve as equally good consolation.

Full Moon at perigee occurs once every 14 synodic months (lunar months of 29.53 days). I’ve created a chart illustrating various factors for the next 15 Full Moons, the first and last occurring near perigee. It can be seen at www.curtrenz.com/moon

Although this month’s Full Moon will appear particularly large due to its occurrence near the time of perigee, the previous two Full Moons were actually brighter. That’s because the Earth/Moon duo was closer to the Sun, and the Moon was nearer to the ecliptic thus enhancing the opposition flash. These factors increased the number of photons being reflected back toward us.

The brightness factor on my Full Moon chart gives a value of 1.00 when both the Sun and Full Moon are at their mean distances from Earth, and the Moon is on the ecliptic. Of course that would be during a total lunar eclipse, but for the standard it is assumed that sunlight passes unimpeded through the Earth. For a Full Moon that actually goes into eclipse, the brightness factor is an average for the moments just before and after the Moon touches the Earth’s penumbra.

Photos and discussions of this month’s especially large Full Moon would be welcome additions to this thread. Below is the picture I took of the rising Hunter’s Moon on 2010 OCT 22.

[Centaur]

Clouds over Lake Michigan spoiled the fun even for us well west of the lake. However, those with pictures and descriptions are invited to share.

Here is something I whipped up to illustrate why I deride the popular media for emphasizing the barely elliptical shape of the lunar orbit rather than the Earth being off the orbit’s center, in regard to perigee and apogee.

A = Semi-major axis of ellipse
B = Semi-minor axis of ellipse
C = Distance between a focus of the ellipse and its center
D = Ellipticity (non-circularity)
E = Eccentricity (focus off-centeredness)

In the case of the lunar orbit, A is half of its longer axis. B is half of its shorter axis. C is the distance of the Earth's center from the orbit’s center.

E = C/A

D = A/B = 1 / Square Root(1 - E²)

Mean E for lunar orbit = 0.055 (varies between 0.026 and 0.077 during as little as 3 months)
Mean D for lunar orbit = 1.0015

The ellipticity D is barely different from circular, as seen in my diagram below. It is only at large eccentricities that the ellipticity would be obvious in a diagram.

[Paulie pchris00]

My best image of the so-called "Super Moon" came Friday night, March 18, 10:50 CDST, from Portage Indiana. This was more than 14 hours before full, and more than 15 hours before perigee.




For those who are not aware, north is to the right.

[Centaur]

Super picture Paulie! Thanks for sharing.

[Paulie pchris00]

I just wrote out a detailed comparison of last night's full Moon to last year's "Super Moon." I'm falling asleep, however, and accidentally highlighted and deleted everything just before I posted. Gist of it was that my atheist meet-up group was telling me how big the full Moon was last night. Of course, I thought they were just falling for the Moon illusion. I looked into it, and found that, no, it wasn't as big as the "Super Moon," but it was a larger full Moon than usual.

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Take nap.

Zzzzzzzzz.......

[Centaur]

Mar 9, 2012 12:22:20 GMT -6 Paulie pchris00 said:

...Gist of it was that my atheist meet-up group was telling me how big the full Moon was last night. Of course, I thought they were just falling for the Moon illusion. I looked into it, and found that, no, it wasn't as big as the "Super Moon," but it was a larger full Moon than usual.

I suspect your friends' descriptions were mainly due to your initial suggestion of the Moon Illusion, Paulie. This year the largest and brightest Full Moon will occur during the evening of May 5. See related graphics on my lunar webpage: www.CurtRenz.com/moon