THE SOUTHWORTH PLANETARIUM
207-780-4249 www.usm.maine.edu/planet
70 Falmouth Street Portland, Maine 04103
43.6667° N 70.2667° W
Founded January 1970
Julian date: 2457739.16
207-780-4249 www.usm.main
70 Falmouth Street Portland, Maine 04103
43.6667° N 70.2667° W
Founded January 1970
Julian date: 2457739.16
“Letting it get to you. You know what that’s called? Being alive. Best thing there is. Being alive right now is all that counts.” -Dr. Who
THE DAILY ASTRONOMER
Monday, December 19, 2016
Week 16 Night Sky Calendar
Monday, December 19, 2016
Week 16 Night Sky Calendar
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Happy belated birthday to my favorite (only) brother,
Richard! Even though you're six light years to the south
of us, we hope your winter still hurts! Happy Birthday!!
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Despite the misgivings of our citizens and the angry protests staged around the country, winter is about to commence. We are resolved to make the best of this situation, however, and will find in every bone-cracking, blood-congealing, eye-fluid-freezing day a reason to rejoice. Of course, the winter's brilliant constellations offer warmth and joy amidst the season's assailing tempests.
Recently, we decided to focus on a different constellation at the beginning of each weekly night sky calendar. This week we're going to do something slightly different. We'll train our spotlight on the Winter Hexagon. This "hexagon" consists of seven -some say eight- stars taken from six different constellations. Throughout early winter, we will proceed clockwise along the Winter Hexagon and discuss each constellation in turn:
These stars and their associated constellations are as follows:
Capella in Auriga the Charioteer
Aldebaran in Taurus the Bull
Rigel in Orion the Hunter
Sirius in Canis Major
Procyon in Canis Minor
Castor/Pollux in Gemini the Twins
Castor/Pollux in Gemini the Twins
and, Betelgeuse in Orion the Hunter.
(Although Betelgeuse is not on the actual hexagon perimeter, it is often considered part of the Winter Hexagon because of its central location.
(Although Betelgeuse is not on the actual hexagon perimeter, it is often considered part of the Winter Hexagon because of its central location.
Our Winter Hexagon tour will commence on January 2nd with Auriga!
Winter Hexagon Rising! The Winter Hexagon rises in the eastern sky this evening. By 9:00 p.m. the entire star pattern looms high over the eastern horizon. Eight stars comprise this hexagon: Capella, Aldebaran, Rigel, Sirius, Procyon, Pollux, Castor and Betelgeuse. Image by Astro Bob.
Apart from the winter solstice, this week's calendar includes a 'stationary' Mercury. a quarter moon, the underestimated Ursid meteors and, amazingly, the equation of time zeroes out again.
MONDAY, DECEMBER 19: MERCURY STATIONARY
If you were an astronomer and charged with tracking the planets, you would need to observe the planets every clear night and note their positions relative to the stars. You would notice that the planets tend to move eastward relative to the stars. At times, however, this eastward migration would stop and then the planet would move westward (retrograde) against the stars. Eventually the planet would appear to stop again before resuming prograde motion. When the planet reaches one of these "stopping" points, it is said to be 'stationary.' A planet never actually halts in its orbit. Instead, it appears to do so because we are moving relative to the planet. Mercury is an inferior planet, meaning that it is closer to the Sun than Earth. We're watching this little world move around its orbit from an external perspective. When Mercury reaches either "end point" on this orbit, it appears stationary. Similarly, a car driving around a track will either appear to move to our left or our right depending on which side of the track it occupies.
WEDNESDAY, DECEMBER 21: LAST QUARTER MOON
WEDNESDAY. DECEMBER 21: WINTER SOLSTICE
We should refer to this event as the "December solstice," as it is the winter solstice only for the Northern Hemisphere. It is the summer solstice for the Southern Hemisphere. At 5:44 a.m. EST, autumn will end and winter will begin. For those who are looking forlornly out their windows onto the fields of glare ice and towering snow summits and wondering what's happened: our planet is titled 23.5 degrees relative to the vertical position. As Earth travels around the usually benevolent Sun, our hemisphere's orientation relative to Sol continually changes. On the winter (June) solstice, the northern hemisphere is aligned toward the Sun as much as possible. Six months later, we're directed away from the Sun as much as possible. The Sun's altitude is lower in the winter and heats us least effectively. Consequently, our air cools and we experience cold weather. In the summer when the Sun's altitude is higher, the air warms and our weather is more clement, except for those time when we experience torrential rain showers and hurricanes.
THURSDAY, DECEMBER 22: URSID METEORS
The Ursid meteor shower doesn't command as much attention as it should. This shower is a particularly good one for us northern observers because the radiant (the point in the sky from which the meteors appear to emanate) is always above the horizon. We should see about 10 - 12 Ursid meteors per hour. As the moon is in the waning crescent phase, lunar light will not interfere much with meteor observing.
Ursid Peak. The Ursid meteor shower is named for Ursa Minor, the constellation from which the meteors appear to emanate. The radiant appears close to Kokab, Ursa Minor's beta star. Image: Sky and Telescope.
One can observe the northern sky tonight to see a few moderately bright meteors pouring out of the Little Dipper's bowl.
THURSDAY, DECEMBER 22: MOON 2.3 DEGREEES NNE OF JUPITER (SILVER EVENT!!)
Jupiter rises earlier each night and now serves as a beautiful beacon in the pre-dawn eastern sky. Tonight, one will find the waning crescent moon just "above" the brilliant giant planet. The moon will be 35% illuminated and certainly won't obscure Jupiter, which is currently 1.5 times brighter than Sirius, the night sky's brightest star.
SATURDAY, DECEMBER 24: EQUATION OF TIME IS 0
The Equation of Time might seem too esoteric a topic for polite company, but, to us, it is quite an interesting concept because it demonstrates that one will find complexity even in the simplest places. We know that the Sun appears to rise somewhere over the eastern horizon and sets somewhere along the western horizon. This apparent motion is illusory, because the only thing moving is our own planet. Earth's rotation merely makes the Sun seem as though it soars across the sky, an illusion so convincing that even astronomy types still employ Ptolemaic words such as "sunrise" and "sunset." Once a day, the Sun will reach its highest point above the southern horizon during a moment called "upper culmination." The Sun is at this culmination when it crosses the meridian, the imaginary arc connecting due south and due north. Although many believe the Sun reaches the meridian at noon, most of the time it doesn't. It either lags behind or is slightly ahead of the meridian at noon. The "equation of time" indicates the time difference between civil noon and upper culmination, otherwise known as "true noon." Today, the Sun crosses the meridian precisely at noon time. The graph below shows the approximate equation of time throughout the year.
Equation of time graph: The red curve indicates the 'equation of time' throughout the year. When the red line is below the mid-line (0.00), the Sun has not yet reached the meridian at noon. When the red line is above the mid-line (0.00), the Sun reached the meridian before noon. When the red line is on the mid-line, the equation of time is 0. For instance, on Feb 11, the equation of time is at a local minimum of approximately 14 minutes. At noon on Feb 11, the Sun was east of the meridian. Upper culmination actually occurred on that date at 12:14 p.m. On December 24, the equation of time is zero. The Sun will cross the meridian at noon.
SUNDAY, DECEMBER 25: MERCURY AT PERIHELION
One must wonder why we bother to include this event in a calendar specifically designed for observational astronomy. We're not sure, ourselves, although this event affords us an opportunity to discuss that most scintillating of all astronomical topics. "Elliptical planetary orbits." Planets move along elliptical orbits, which one can envision as being like ovals. Were a planet's orbit circular, its distance from the Sun would remain constant. As the planets in our solar system travel along ellipses, their distances from the Sun are constantly changing. They veer from a maximum distance (aphelion) to a minimum distance (perihelion.) Today, Mercury reaches perihelion and will be 28.6 million miles (46 million km) from the Sun.
PLANET WATCH:
MERCURY (Host constellations: Sagittarius-Ophiuchus)
The first world peeks up in the western evening sky. This apparition favors southern observers, but Mercury remains visible low in the southwest for northern sky watchers. Mercury will be at greatest eastern elongation on December 11th, but at inferior conjunction on December 28th. Mercury will vanish around the third week of December. VERDICT: We would advise you to venture out during the first half of December to find Mercury. The elusive world vanishes late this month.
VENUS (Host constellation: Sagittarius) PICK PLANET!
People wonder why Venus is such a prima donna when she receives the coveted "pick planet' diadem almost every month. Venus enjoys the advantage of being the brightest planet, so whenever it appears it will invariably outshine it planetary cohorts. This month Venus shines brilliantly as the western evening sky star. VERDICT: Easy to find if you're outside in the early evening. Look west and just behold the spectacle.
MARS (Host constellation: Capricornus - Aquarius)
Here's an interesting observational exercise: observe Mars in the western evening sky throughout December. One will notice that Mars is setting around the same time each night. Mars has been setting around 9:30 p.m. each night this autumn because Earth and the red planet are moving in such a way as to make their positions relative to each other nearly constant. VERDICT: Not only can you see the red planet, you can almost set your watch by it. What's not to love?
JUPITER (Host constellation: Virgo)
Rising earlier each morning, Jupiter is the only pre-dawn planet visible to the naked eye. The fifth sphere serves as a the brilliant eastern beacon one can easily see provided one ventures outside a couple of hours before sunrise. VERDICT: The perfect planet for joggers, dog walkers, and those accursed few who always arise with alacrity before the alarm blares,.
SATURN (Host constellation : Ophiuchus)
We're sorry to say that we have to bid Saturn adieu, at least for awhile. The ringed world vanishes into the dusk, destined to return to the pre-dawn sky by late December. Saturn is in solar conjunction on December 11th. VERDICT: Don't bother to seek out Saturn until just before the New Year's celebrations.
© 2016 Edward Gleason