Artist's concept of the hypothetical "Planet Nine." Could it have moons? Credit: NASA/JPL-Caltech/Robert Hurt
Artistic rendering shows the distant view from theoretical Planet Nine back towards the sun. The planet is thought to be gaseous, similar to Uranus and Neptune. Hypothetical lightning lights up the night side. Credit: Caltech/R. Hurt (IPAC)
The astronomer known worldwide for vigorously promoting the demotion of Pluto from its decades long perch as the 9th Planet, has now found theoretical evidence for a new and very distant gas giant planet lurking way beyond Pluto out to the far reaches of our solar system.
The waxing gibbous Moon closes in on Aldebaran (lower left). Image credit and copyright: Sarah & Simon Fisher
They braved the cold, cursed the clouds, wrestled with frozen telescope focusers and more, as dedicated astros worked to catch the first occultation of the bright star Aldebaran for 2016 by the waxing gibbous Moon.
Photo of first ever blooming space Zinnia flower grown onboard the International Space Station's Veggie facility moved to catch the sun’s rays through the windows of the Cupola backdropped by Earth. Credit: NASA/Scott Kelly/@StationCDRKelly
Furthermore its contributing invaluable experience to scientists and astronauts on learning how to grow plants and food in microgravity during future deep space human expeditions planned for NASA’s “Journey to Mars” initiative.
SpaceX Falcon 9 First stage approaches center of landing droneship in Pacific Ocean. Credit: SpaceX
SpaceX Falcon 9 first stage tips over and explodes on Pacific ocean droneship after landing leg fails to lock in place on Jan 17, 2016. Credit: SpaceX
See landing video below
Now you see it... the December 23rd 2015 occultation of Aldebaran. Image credit and copyright: Roger Hutchinson
“That’s no moon…”
But in this case, it is (sorry Ben), and that Moon is headed to temporarily obliterate (occult) the view of the bright star Aldebaran as seen from the Earth on the evening of January 19th and into the morning of the 20th.
Here are the specifics. Not to be confused with Princess Leia’s homeworld of Alderaan of Star Wars science fiction fame, the occultation of the bright star Aldebaran in the astronomical constellation Taurus occurs on the night of Tuesday, January 19th and finds the waxing gibbous the Moon 82% illuminated and four days from the first Full Moon of the year on January 24th. This is also the first of 13 occultations of Aldebaran for the year 2016, one for even lunation. Evening occultations are particularly favorable, as the star in question always disappears along the leading edge dark limb of the Moon, to reappear along its daytime limb. Once the Moon is waning, the reverse is true, as the bright limb then leads towards New phase.
We’ve caught occultations of bright stars very near Full, and can attest that it is indeed possible to follow a +1st magnitude star all the way to the lunar limb.
The occultation footprint for tomorrow night’s event. Image credit: Occult 4.2
The occultation footprint runs across the nighttime northern hemisphere from the early morning hours in western Europe and the United Kingdom across the northern Atlantic, across the contiguous ‘lower 48’ states of of U.S. to Canada and northern Mexico. It actually juuuust misses us here down in sunny Florida, one of the few states that will miss out on the event. This is the best placed occultation of Aldebaran for 2016 for most North American viewers, falling during early evening prime time hours high in the post twilight sky.
Here’s the timing for the ingress (beginning) and egress (end) for the occultation for selected cities; the International Occultation Timing Association (IOTA) has an extensive table of times for cities within the occultation path. (all quoted using Universal Time(UT), plus altitude (alt) in degrees (deg) :
London
Ingress: 3:25 UT/alt: 6 deg
Egress: 3:57 UT/alt: 2 deg
Atlanta
Ingress: 2:22 UT/73 deg
Egress: 3:06 UT/70 deg
Boston
Ingress: 2:35 UT/60 deg
Egress: 3:47 UT/50 deg
The occultation as seen from Boston Mass. Image credit: Starry Night Edu.
Los Angeles
Ingress: 1:05 UT/40 deg
Egress: 2:13 UT/54 deg
Montreal
Ingress: 2:28 UT/59 deg
Egress: 3:42 UT/51 deg
Halifax
Ingress: 2:46 UT/53 deg
Egress: 3:57 UT/43 deg
Note that precise times for the event change slightly due to the position of the observer within various time zones, as well as the parallax shift of the Moon as seen from the Earth.
Occultations always give us a chance to analyze the target star for any possible close in binary companions, as the star winks out in a tell tale step-wise fashion. Aldebaran has no known close companion star, though spurious claims have been made for planets orbiting the star over the years. 65 light years distant, Aldebaran is in the direction of the Hyades star cluster in the distant galactic background, though it is physically unrelated to the group, which is 153 light years from the Earth. This also means that several bright stars in the Hyades get occulted by the Moon as well on Tuesday night, as the Moon makes its way to Aldebaran and its date with astronomical destiny.
The lunar limb profile along the graze line. Image credit: Brad Timerson/IOTA
An occultation of a bright star by the Moon also allows selenographers to map out the profile of the jagged lunar limb, as light from the distant star is alternately shines through the valleys and is occluded mountain peaks along the edge of the relatively nearby Moon. This effect can be especially dramatic for observers positioned along the graze line, which on Tuesday night runs from southern Georgia through southern Texas into northern Mexico, across to Baja California.
The southern graze line for tomorrow night’s event. Image credit: IOTA/Google Maps
Recording the occultation is as simple as aiming a video camera coupled to a telescope at the Moon at the appointed time, and running video. Start early, and you may want to overexpose the waxing gibbous Moon a bit to bring out Aldebaran. We managed to nab the 2008 occultation of Antares by the nearly Full Moon using a simple JVC video camera and an 8” Schmidt-Cassegrain telescope.
The event will be easily visible using binoculars, and should even be noticeable to the unaided eye.
That’s it for this week in ‘things passing in front of each other…’ In astronomy, lots can be learn just from analyzing light, or in this case, the absence of it. What good are occultations? Well, they might just save your not-so-secret rebel base from immediate annihilation:
the gas giant world Yavin occults the moon housing the rebel base in Star Wars Episode IV. Image credit: Lucasfilm ltd.
And watch that Moon, as there will be another good occultation of Aldebaran shifted just slightly westward next lunation on February 16th, 2016.
The SpaceX Falcon 9 rocket is seen as it launches from Vandenberg Air Force Base Space Launch Complex 4 East with the Jason-3 spacecraft onboard, , Sunday, Jan. 17, 2016, Vandenberg Air Force Base, California. Jason-3, an international mission led by the National Oceanic and Atmospheric Administration (NOAA), will help continue U.S.-European satellite measurements of global ocean height changes. Photo Credit: (NASA/Bill Ingalls)
The SpaceX Falcon 9 rocket is seen as it launches from Vandenberg Air Force Base Space Launch Complex 4 East with the Jason-3 spacecraft onboard, Sunday, Jan. 17, 2016, Vandenberg Air Force Base, California. Jason-3, an international mission led by the National Oceanic and Atmospheric Administration (NOAA), will help continue U.S.-European satellite measurements of global ocean height changes. Photo Credit: (NASA/Bill Ingalls)
The weather forecast is outstanding! And you can watch all the excitement live!
The primary goal is to deliver Jason-3 to low Earth orbit, where it will gather global measurements of ocean topography, or wave heights, using radar altimitry. These data provide scientists with essential information about global and regional changes in the Earth’s seas such as tracking sea level rise that threatens the resilience of coastal communities and the health of our environment. Continue reading “SpaceX Launching NASA Jason-3 Ocean Surveillance Satellite Jan. 17; with Barge Rocket Landing – Watch Live”
Sierra Nevada Corporation's Dream Chaser spacecraft docks at the International Space Station.
Credits: Sierra Nevada Corporation
SNC’s Dream Chaser Spacecraft and Cargo Module attached to the ISS. Credit: SNC
A shuttle will soar again from American soil before this decade is out, following NASA’s announcement today (Jan 14) that an unmanned version of the Dream Chaser spaceplane was among the trio of US awardees winning commercial contracts to ship essential cargo to the International Space Station (ISS) starting in 2019.
What would Earth look like if it had a ring system like Saturn's. Credit: Kevin Gill/Flickr
Saturn’s Rings are amazing to behold. Since they were first observed by Galileo in 1610, they have been the subject of endless scientific interest and popular fascination. Composed of billions of particles of dust and ice, these rings span a distance of about 282,000 km (175,000 miles) – which is three quarters of the distance between the Earth and its Moon – and hold roughly 30 quintillion kilograms (that’s 3.0. x 1018 kg) worth of matter.
All of the Solar System’s gas giants, from Jupiter to Neptune, have their own ring system – albeit less visible and picturesque ones. Sadly, none of the terrestrial planets (i.e. Mercury, Venus, Earth and Mars) have such a system. But just what would it look like if Earth did? Putting aside the physical requirements that it would take for a ring system to exist, what would it be like to look up from Earth and see beautiful rings reaching overhead?
