richardhandy – Page 131 – Astronomy Sketch of the Day

Seeing double

The goal of splitting the double star, Antares, had been tempting me for a while. I never seem to have the sort of seeing conditions that would make for a nice clean observation of this double. So I gave it a try on this less-than-perfect evening, and was successful in spotting the secondary star with my SkyView Pro 6LT (6″ f/8 Newtonian) at 240X. Antares’ primary star flickered like a coppery flame in the jumping air currents, so I had to be patient and wait for the ripples of diffracted light to show me the way. The secondary began to coalesce as a consistent lump in the fluttering kidney beans of orange light near the position of the primary star’s second diffraction ring. It’s color was hard to pick up, but gradually, I perceived what looked like a yellow-green tint. To help keep myself honest, I had not checked data on the secondary’s current position angle ahead of time, and it looked to be at a PA of about 280 degrees. Checking Brian Workman’s
double star calculator a couple days later gave a PA of 277° for 2007.5. The separation comes out to 2.18 arcseconds, which is fairly close for my ‘second diffraction ring’ sighting–that works out to 2.5 arcseconds in my scope.

When preparing my double star sketches for presentation online, I scan my original sketch to use as a template. Using that template, I then recreate the double star components using painting tools in Adobe Photoshop. See my Double Star Digitizing Tutorial for a detailed discussion of the process I use. After preparing that tutorial, I came up with a system for representing double star magnitudes consistently across all my sketches. A discussion of that system can be found at this link. Although these methods give me a consistent way to present my double star observations, they don’t handle very close doubles well. The proportions compared to the eyepiece field of view are just too tight (a discussion about this issue can be found at this link. Based on suggestions from experienced observers such as Eric Graff and Ed Zarenski, I decided to supplement my sketches of close double stars with an inset graphic showing how the diffraction patterns of the double stars interacted.

This sketch of Antares shows the most extreme example to date of how I’ve tried to convey the highly magnified optical interaction between two closely paired stars. Presenting something this complex was quite a learning experience for me, but I think it does a fairly decent job of rendering what I saw. This can be seen in the detail portion of the sketch. You just have to imagine all of that jumping around and moving from moment to moment. You’ll notice that I was fortunate enough to have the spider vanes in a position that didn’t interfere with the secondary star.

I made three different pencil sketches at the eyepiece, trying to describe how the secondary appeared within the jumping glare of its orange primary. These raw sketches can be seen below (note that they are shown prior to rotating the sketch to my usual position of North up):

When creating this part of the digital sketch, I used a semi-soft paintbrush to plot the position of the primary star’s diffraction disc. I then used the circle selection tool to stroke progressively fainter rings around the primary. I have been using the excellent information from Ed Zarenski’s article “Understanding Resolution” to help me better proportion the position of these rings to the size of the primary star’s diffraction disc. After plotting these rings, I used a soft eraser tool to erase gaps in them to mimic what I had drawn in my sketches. I then came back with a small, soft paintbrush to slightly brighten up the second diffraction ring where I had noted the position of the secondary star. I then used coloring techniques described in the tutorial above to colorize the image.

It really was a beautiful and challenging sight. Watching the colorful light from a distant star give up it’s wave properties as it passes through the telescope and then tempt you to dissect its secrets is an enjoyable task. Give it a try sometime and see if you can identify the secondary in that bubbling mass of starlight. Someday I hope to observe and sketch this duo under much smoother seeing. Full details about the observation can be found here.

Jeremy Perez

Big Fella and Bodacious Bullialdus

Poor transparency started the session and I was standing there next to the Big Fella
with disbelief showing across my face…no doubt the Big Fella’s face too, but the
dew shield was hiding his expressions from me. I took another swig of my tea and
said to heck with it, a few thin clouds aren’t going to get the best of me…not
after all that time setting up. So I pulled up my socks, changed the expression on
my face to determination and began my date with the Big Fella. Destination Moon.

I had already printed out VMA’s globe showing ideas for tonight’s session. But
peering the terminator and then working my way East, the Big Fella kept tugging me
to a triplet of craters just south of the border and a stone’s throw from the
terminator. It sure did look familiar, but I couldn’t put my finger on it.

Rays were streaking the surroundings like a burst of light just itching to break
free from the crust. And inside the main crater a peak so high and creviced that it
looked like a mini mountain reaching up to soak in the sunshine. If I walking in
that crater, I could easily have scaled the terraced walls, as well defined as they
were this night.

But wait…there wasn’t that much detail at first! I pulled free of the Big Fella
and looked up. The clouds were gone!

At this stage, I’ll end the actual tour to fill you in on what really excited me.
After I walked the Big Fella to his door (ok, so that door happens to be downstairs
from my door) I checked out on VMA what the mystery craters were. Of course…it
was Bullialdus and his two sisters A & B. Quickly flipping through my journal, I
came across this sketch I did with the Little Fella 6 months ago!

With that burning mystery put out, I was free to eat my supper, realizing that I had
forgotten all about the Enchiladas I cooked earlier. Big Fella was too cheap to
take me out for a meal…guess I can’t complain though, he gave me a grand tour on
the moon.

Erika Rix
Zanesville Ohio

Extra image from url:

Rite in Rain sketching paper, blending stump, stick of charcoal, charcoal stick in a
wooden holder.

Sketch Image courtesy Springer Science and Business Media, LLC from “Astronomical Sketching: A Step-by-Step Introduction” (2007)

A Catena Linked Pair

With high pressure moving into my observing area, there was a good chance that the
cloud cover would break up and move out before local midnight. Eventually it did.
The nearly full moon hung low and large in the sky to the south. The largest mare
on the lunar surface is the Ocean of Storms. A pair of similar looking, north to
south oriented craters at the western extreme of the Ocean of Storms is linked to
each other by a rille-like chain of craters. The southern most crater of the pair
is the 50 km. diameter Cardanus. This crater was demonstrating its terraced walls
and hilly irregular ramparts in the low altitude sunlight. Following the catena
southward for a little more than 60 km. we arrive at the other member of the pair
named Krafft. Like Cardanus crater Krafft (51 km.) has in addition to the features
of the former, a crater of 13 km off set from the center of the floor. The sun was
high enough to illuminate much of the impact debris of the region in the form of
numerous crater rays. Closer to both the terminator and limb of the moon in the
libration zone larger craters Vasco de Gama and Dalton are making their appearances
from the long lunar night.



Sketching:

For this sketch I used: black Strathmore 400 Artagain paper, white and black Conte’
pastel pencils and a blending stump. Contrast was slightly increased after scanning.
Telescope: 10 inch f/ 5.7 Dobsonian and 6 mm eyepiece 241X
Date: 7-29-2007, 3:10-4:30 UT
Temperature: 23° C (74° F)
Partly cloudy, calm
Seeing: Antoniadi III
Colongitude   83.6 °
Lunation   14.6 days
Illumination 99 %
Libration long. -4.7°

Frank McCabe

Diamonds on deep blue satin

Here is the open cluster of Pleiades, M 45.
I used my binoculars 20X80 ,3.5° F.O.V.

The.. Pretty …Sisters!!!
Peter Desypris
Athens, Greece

Beautiful Bullialdus

This is my impression of the Lunar Crater Bullialdus with it’s neighbors Konig and
Lubiniezky. It was sketched with a #2HB mechanical pencil on Strathmore Wind Power
Sketching Paper. Other pertinent details are on the sketch itself. I really enjoyed
drawing this sketch because of the detail I was able to see in Bullialdus (one the
smaller craters I’ve captured) and the surrounding landscape.

Jason Aldridge

Early Morning mars

I have attached my latest Mars sketch for your interest. This resulted from my 3rd
observation of Mars during this opposition. Unfortunately seeing was too poor
during the 2nd session to allow me to make a ‘reliable’ sketch.

I find observing in the early morning so invigorating and am always on a high
for the rest of the day following such an opportunity. As I have noted so often
before the view gets more detailed and contrasty as the dawn sky brightens. On
this occasion I noted a distinct brightening along the northern polar region
which I hope I have depicted agreeably in my sketch.

When I observe and sketch Mars I never research what I’m likely to see in case
some preconceived image might cloud my vision of reality at the eyepieces.

Dale Holt

Almost a Basin

As the 2007 year began, winter’s cold grip had not yet taken hold. I was finishing
the process of cleaning and repairing a 13 inch Newtonian telescope when I decided
to colliminate and test the optics on the star Polaris and the moon. The moon was
one day past full and upper Imbrian period crater Humboldt in the
east-south-eastern sector of the libration zone was nicely placed for sketching.
Crater Humboldt at 207 km. in diameter is classified as a large floor fractured
crater. If this crater was 33% larger it would be a lunar basin. On the Lunar 100
list crater Humboldt is number 87.

At or near full moon many observers avoid looking moonward but old Luna can be a
rewarding telescope target at any and every phase.

Sketching:

I used a No. 2 HB pencil on copy paper for this drawing
Date: 1-4-2007 4:00 to 4:40 UT
Temperature: 0°C (33° F)
Windy, some mid-altitude cloudiness, seeing was average
Antoniadi : III
13.1 inch f / 5.9 Dobsonian 9mm ortho ocular 218X
Colongitude: 91.9°
Lunation: 14.6 days
Illumination: 99.6 %
Libration in longitude. +5.5°

Frank McCabe

Galactic Archipelago

M81 Group (M81, M82, NGC 2976, NGC 3077)

Date: April 20, 2007, 10:10PM – 11:15PM
Location: Jastrzebie Zdroj, Silesia, Poland
Telescope: Dobs 114/900 with Plossles
Seeing: 3/5
NELM: 5m8
Magnification: 90x, 45x, 28x

black Pencil 2B, 3B, White paper.

Pozdrawiam,
Mucha Maciej

The Lost Treasure of Hercules

Messier 92: Globular Cluster

And yet, another one of those Globs – don’t worry, there are plenty, 29
in the Messier Catalog alone, but I am slowly pulling through, one more
down on the list and counting. All in all, I’d say: again not bad, measured
up to the years of life it cost me to draw it. You sit there at the telescope,
frozen to the spot in a never-ending struggle to decide, whether you’ve
seen the detail or not, whether you should draw it or not, your hands are
getting cold, your neck is getting stiff and the cluster simply keeps refusing
to turn out the way you want it or see it. Well, the longest journey comes to
an end, so here it is: M 92! I like to call it The Lost Treasure of Hercules,
because it is a great view, yet often overlooked due to its proximity to the
far more well-known M 13. Maybe next time you visit the area, remember to
make a little stop-over at M 92.

Date: April 15, 2007
Location: Kegelhaus, Erbendorf, Bavaria, Germany
Instrument: Dobsonian 8″ f/6
Constellation: Hercules
Seeing: II of VI
Transparency: I-II of VI
NELM: 6m2
Magnification: 133x
Technique: white pastel pens and white ink-pen on black cardboard

Sebastian Lehner

Center of the Lunar Nearside

When the moon is several degrees below the summer ecliptic to the south, it can be
challenging to view and sketch from mid-northern latitudes.
I chose for sketching a highland region inside the triad of the Bays of Medii and
Aestuum and the Sea of Vapors. The center of this region contains the crater pair
Pallas and Murchison. Crater Pallas (50km.) which is a Nectarian period formation
is more than 3.8 billion years old. Pallas has a partially buried central peak at
1.3 km. above the lava flooded floor. Crater Pallas-A rests on the western rim and
deep bowl shaped crater Bode beyond the rim are clearly seen. Murchison (58 km.)
which is the oldest of the pair at about 4 billion years shows the greatest amount
of wear. Lava flooded floor, severe wall erosion, and strikes such as Chladni
(13.8km.) on the southeastern wall are among the features that demonstrate the age
of this crater. All that remains of the common wall of Pallas-Murchison are pieces
of ridge wall. Half of well known crater Triesnecker is visible to the east.
I was unable to use higher magnification because sky conditions were below average
until after moonset.


Sketching:
For this sketch I used: black Strathmore 400 Artagain paper, white and black Conte’
pastel pencils and a blending stump. Contrast and brightness were slightly
increased after scanning.
Telescope: 10 inch f/ 5.7 Dobsonian and 9 mm eyepiece 161X
Date: 7-23-2007, 1:15-1:48 UT
Temperature: 24° C (75° F)
Partly cloudy, calm
Seeing: Antoniadi III
Colongitude 10.1 °
Lunation 8.6 days
Illumination 58 %

Frank McCabe