LISTSERV - DAILY-ASTRONOMER Archives

THE SOUTHWORTH PLANETARIUM
70 Falmouth Street      Portland, Maine 04103
(207) 780-4249      usm.maine.edu/planet
43.6667° N    70.2667° W  Altitude:  10 feet below sea level Founded
January 1970
2021-2022: CXXI
"Look on the bright side of life."
-Monty Python's Flying Circus

THE DAILY ASTRONOMER Monday, May 9, 2022
The May 2022 Total Lunar Eclipse

The waiting is almost over! In less than one week, we'll experience a total
lunar eclipse. This soul-elevating, life-affirming spectacle occurs on the
night of May 15/16th. For the benefit of those who don't spend their lives
steeped in the stygian gloom, a lunar eclipse occurs when the full moon
moves through Earth's shadow. We recognize a few types of lunar eclipse:
[Refer to helpful diagram below]


   - *Partial Penumbral: *when only part of the moon's moves through the
   *penumbra*, Earth's outer shadow. Excitement rating: nada, zilch, goose
   egg*
   - *Penumbra: *when the entire moon moves through the penumbra, but
   doesn't touch the umbra. Excitement rating: 2.3 atomic layers higher than
   goose egg
   - *Partial: *when part of the moon moves through the *umbra, *Earth's
   inner shadow Excitement rating: Much higher! Ostrich egg
   - *Total: *when all of the moon moves through the umbra. Excitement
   rating: Stratospheric!! T-Rex egg.

[image: Earths-penumbra-and-umbra.png]

During the May 15th eclipse, the moon will move entirely through Earth's
umbra. The moon will also pass into and then out of the penumbra before and
after the total eclipse, respectively. Now, for the all-important
time-line. [Eastern Daylight Time]


*May 15 - 9:32 p.m. PENUMBRAL ECLIPSE BEGINS*
 The penumbral eclipse begins when Earth first touches the penumbra. The
moon passes completely into the penumbra before it reaches the umbra.
Honestly, unless you're one of those mystical poetic types who can actually
tell the difference between a whisper of a breeze and a caressing zephyr,
you won't notice much during the penumbral part of a lunar eclipse. Perhaps
the brilliant moon's pallor is rendered a few phantoms less vibrant, but
even that is a stretch.

*May 15    -    10:27 p.m. PARTIAL ECLIPSE BEGINS*
This is when the 'action' starts. The umbra is the dark interior shadow.
Once the umbral eclipse begins, we'll see Earth's curved shadow against the
moon. We'll watch the shadow migrate across the moon until the moon is
completely immersed in Earth's shadow.

*May 15    -    11:29 p.m. TOTALITY BEGINS*
Totality begins when the moon is completed inside Earth's umbra. The moon
will not be wholly lost from sight. Instead it will appear reddish, because
Earth's atmosphere scatters blue light, but directs red light into its
shadow. (We see a blue sky during the sky because of this effect.) The
eclipsed moon will reflect this reddish light back to us, producing the
ominously named 'blood' moon. One effect that we think is absolutely
magnificent is the 'spherical moon' phenomenon. During totality, the color
differential across the moon's facade lends it a spherical appearance. The
moon actually appears as a crimson sphere in space, as opposed to the full
moon's usual disc-like appearance.

*May 16    -    12:11 a.m.   MAXIMUM ECLIPSE*
When the distance separating the center of the shadow and the moon's center
is at a minimum.

*May 16   -   12:53 a.m.       TOTALITY ENDS*
At this moment, the moon starts its exit from the umbra.  We will see a
thin sliver of the moon emerging from the inner shadow.

*May 16  -    1:55 a.m.    UMBRAL ECLIPSE ENDS*
For all intents and purposes, the show is now over.  The moon completely
leaves the umbra and appears, well, like a full moon again, except that it
remains immersed in the penumbra.

*May 16 -    2:50 a.m.    PENUMBRAL ECLIPSE ENDS*
The eclipse event is now technically over.  Of course, the moon's
brightness is hardly diminished during this last hour because the penumbra
is so faint.

[image: 320px-Lunar_eclipse_chart_close-2022may16 (1).png]
The moon's path through Earth's shadow. The progression is from right to
left.

Now, for some Q and A

*WHY DON'T LUNAR ECLIPSES OCCUR EVERY MONTH?*
Lunar eclipses would occur during every full moon if the moon's orbit were
perfectly aligned with Earth's.   However, the moon's inclination is about
5.1 degrees. Or, its orbit subtends a 5.1 degree angle relative to our
planet's orbit, called *the ecliptic.  *Consequently, during most
oppositions (full moons), the moon is either north or south of Earth's
orbital plane. As a result, the moon will not pass directly through Earth's
shadow.   This month, the full moon is close enough to the *node*, or the
intersection between the orbits, that it will travel through the shadow
cone to produce a lunar eclipse.

[image: moon.orbit_-e1498934371864.jpg]

*WHY DOES THE MOON TURN RED DURING A TOTAL LUNAR ECLIPSE?*
Because red light originating from the ring of sunsets/sunrises fills
Earth's shadow cone. The eclipsed moon reflects that red light just as the
moon reflects sunlight.
[image: Umbra_color_schematic-630x354.jpg]

We should mention that not all total lunar eclipses appear the same.
Variations in the atmospheric conditions cause variations in the
colorations of total lunar eclipses. French astronomer André-Louis Danjon
(1890-1967) proposed a scale designed to measure these variations.


   - *0  *  Extremely dark eclipse.  The moon is almost invisible during
   totality.
   - *1*     Grey/brown eclipse.   Moon's features discernible, but
   difficult to observe
   - *2*    Deep red/rust colored eclipse.  Central part of the moon darker
   than the edges
   - *3    *Brick-red eclipse.    Umbral shadow exudes a bright, sometimes
   yellowish hue
   - *4    *Bright, copper red or even orange coloration


While the solar cycle affects these ratings, hence Danjon's decision to
develop the scale, terrestrial factors such as volcanic eruptions tend to
be more important.     For instance, the lunar eclipse on December 9, 1992
rated a 0 on the Danjon scale because of the eruption of Mount Pinatubo
which occurred during the spring and summer of 1991. The ratings are
subjective and so vary somewhat from observer to observer.


*WILL THE SOUTHWORTH PLANETARIUM BE OPEN FOR THIS ECLIPSE. IF SO, WHEN WILL
YOU OPEN AND CLOSE?*
Weather permitting, of course, the planetarium will be open for the total
lunar eclipse. We will open at 10:00 p.m. At 10:15 p.m. we'll present a
brief show about the lunar eclipse in our star dome theater. At 10:25 p.m.,
a couple of minutes prior to the moon's first contact with the umbra (inner
shadow), we'll gather outside to observe the eclipse. We will close at 1:00
a.m., just after the end of totality. It has been our experience that the
vast majority of people lose interest once the moon starts leaving the
umbra. Again, if the sky is overcast, we will not open. Note: the penumbral
eclipse will be in progress during our star dome presentation. However, the
penumbral phase of the eclipse isn't truly noticeable.

*EVERY LUNAR ECLIPSE IS ASSOCIATED WITH A SOLAR ECLIPSE THAT OCCURS EITHER
AFTER OR BEFORE IT. WHEN WILL THAT ECLIPSE HAPPEN AND WILL WE SEE ANY OF
IT?*
A partial solar eclipse occurred April 30th. Unfortunately, it was only
visible in the southern hemisphere: South America and Antarctica.
*WILL ANY OTHER LUNAR ECLIPSE OCCUR THIS YEAR? IF SO, WILL WE SEE IT?*
Yes, another total lunar eclipse will occur on November 8, 2022. We will
see the first half of this eclipse. Totality begins at 5:16 a.m. and ends
at 6:41 a.m. However, in Portland, the moon will set at 6:32 a.m. Although
the moon shall remain above the horizon for most of the totality period, it
will be exceedingly difficult to see owing to its low position along the
horizon. And, in anticipation of the question, no we likely won't be open
for that event.
* WILL ECLIPSES EVER STOP BECAUSE OF THE MOON'S RECESSION FROM EARTH?*
The moon is moving away from Earth at the rate of 3 -4 cm per year.
However, Earth's shadow extends about 840,000 miles into space and the
moon's distance from Earth, which currently can't exceed about 252,000
miles, will only increase to about 325,000 miles by the time the Sun
expands into the red giant stage. Consequently, lunar eclipses will
continue as long as the Sun continues to shine. Total solar eclipses will
eventually stop...in about 600 million years.


*I realize that describing any celestial event as unexciting is as
blasphemous to some as a New Englander declaring that "football is only a
game."   So, my apologies to those select few who think that all things
cosmic, from the occultation of star UCAC4 273-201720 by asteroid 4828
Misenus -which also happens on May 15th- to the discovery that our Universe
is wholly encapsulated in a small bog bubble, should engender a sense of
unconstrained ecstasy.


To subscribe or unsubscribe from the Daily Astronomer:
https://lists.maine.edu/cgi-bin/wa?SUBED1=DAILY-ASTRONOMER&A=1