A bright note in his Music of the the Spheres

Kepler and rays 

Crater Kepler and its Rays
  
At nearly 12 days into the current lunation sunlight is bathing young crater
Kepler and its extensive ray system. Kepler falls into the category of a smallish
complex crater (31 km in diameter and 2.75 km deep) with a low peak rising from an
otherwise small flat central floor. Most of the floor is covered with slumped wall
debris. A small part of the inner wall appeared terraced. Crater Kepler lies
between the Oceanus Procellarum and the Mare Insularum both of which are made of
dark lavas. Very prominent rays extend from the rampart and ejecta blanket well
beyond the crater rim for more than 300 km. Some of the rays, especially in the
east, overlap rays of other craters such as Copernicus.

Crater Kepler was named by the Jesuit astronomer Giovanni Battista Riccioli about
28 years after the death of Johannes Kepler. He also named Crater Tycho after
Tycho Brahe, the man with the accurate data measurements that helped make Kepler
famous.

West northwest of Kepler the large old crater close to the terminator is Marius.
Using a higher magnification ocular than that used in this drawing, I could see
several domes to the north of the crater in very good grazing light. Kepler is a
favorite crater target of mine as the moon approaches full phase.
  
  Sketching:
  For this sketch I used: black Strathmore 400 Artagain paper 9”x12”, white and
  black Conte’ pastel pencils and a blending stump.
  Telesccope: 10 inch f/ 5.7 Dobsonian and 9 mm eyepiece 161X
  Date: 4-29-2007 2:45-3:45 UT
  Temperature: 18° C (65° F)
  Clear, calm
  Seeing:  Antoniadi  III
  Colongitude  51.8 °
  Lunation 11.6 days
  Illumination 90.5 %
  
  Frank McCabe

A Herald of Summer

M57 

In April, later a night, a bright star comes crawling above the horizon
in the East, dragging behind it a constellation, well-known to even the
youngest of astronomers, and all at once you know that Summer is
approaching again. Wega and with it the Constellation of Lyra is rising
again, bringing with it one of the most famous objects of the summer sky,
if not one of the most famous objects of the sky altogehter: M 57,
the Ring Nebula.

This was my second attempt at sketching it, this time I used an
OIII-filter and there is no way of telling what a difference it made.
The nebula, which had before just appeared as an even ring with a
somewhat milky center, suddenly started to reveal many details, darker
and lighter areas, an elongated halo – all of which convinced me that
apart from a good sky and obersving experience an OIII-filter is one of
the most powerful tools at the hands of an observer of planetary nebulae.

The drawing, which was done with white pastels on black cardboard again,
turned out pretty well.

Sebastian Lehner

Veiling the Red Planet

Mars Dust Storm 

2005 Martian Dust Storm

In late October during the 2005 Martian apparition, a dust storm 
began to roar across the planet’s southern hemisphere. Over the 
course of two nights, I was able to make four sketches of the storm 
as it developed and rotated into view.

In the sketches, the dust storm can be seen wrapping out of the Solis 
Lacus region. On the first evening, I was not able to detect any 
color in the storm, but on the second evening, I thought I could 
discern a very subtle, yellowish tint. I supplemented the 
observations with 21A Orange and 80A Blue filters while using a 6″ f/
8 Newtonian at 240X magnification.

The sketches were made with 2H and HB pencils on 28# bond within 2.5″ 
diameter circles. For each sketch, I began by completely shading one 
circle very lightly with a 2H pencil and then blending with a 
blending stump. Then, using both unfiltered and 21A filtered views, I 
shaded darker albedo regions with the HB pencil and blended again 
with the blending stump. I described bright regions by using both art 
gum and kneaded erasers to remove the base shading.

I made a second sketch of each view while using a 80A Blue filter. 
This supplementary sketch consisted of a simple line drawing denoting 
the brighter areas I saw.

After scanning the sketches and adjusting for contrast, I applied a 
black background with a slightly blurred edge to approximate the soft 
view through the eyepiece. By using additional layers in Adobe 
Photoshop, I added color over the pencil drawing as described in my 
notes. Where the 80A line drawing indicated bright spots, I added 
some blue to the boundaries of those areas to show that they were 
strong in blue light.

Jeremy Perez
http://beltofvenus.perezmedia.net

Brightest Heliocentrist

Aristarchus

When I visit the Moon with my telescope, unless I’m working with friends on a collaborative project, I like to see what takes my fancy when I reach the terminator. Invariably something catches your eye and just won’t let it go, that is what I go for, he who shouts the loudest. On the evening of Saturday April 28th it turned out to be Aristarchus magically illuminated along the terminator.
  
I used my Antares 105mm F14.3 refractor, viewing through a Denk binoviewer
yeilding 163x.
  
Using a black sketching pad and a mix of watercolour pencils, pastel pencils and
conte sticks after 15 minutes this was the result.
  
Dale Holt

Sunny side up

Sunspots

The Sun with ARs 953 & 954

After many frustrating weeks of poor conditions, things finally let up long enough
for me to catch a few sketches of the Sun with its (also long-awaited) recent
sunspot activity. These sister ARs are quite impressive, and 953 is the largest I’ve
seen in my short observing career. I can’t wait for Solar Maximum! -æ

(Sketches done in graphite pencil (HB & 3B) on 70# sketch paper.)

Andrew English

Waiting for a return call

M13 
Messier 13 Globular Cluster

At the darkest part of a June night, you may spot a faint fuzzy patch way up high in
the south. Through binoculars, it appears as a gently glowing ball of light. With a
telescope, you can glimpse its true nature: a cluster of almost a million stars,
swarming together in space.

This wonderful object is known as M 13, because it was the thirteenth entry in the
catalogue of fuzzy objects recorded by the eighteenth-century French astronomer
Charles Messier. We now classify M 13 as a globular cluster. These great round balls of stars are among the oldest objects in our Galaxy, dating back to its birth some 13 billion years ago.

In 1974, radio astronomers sent a message towards M 13, hoping to inform the
inhabitants of any planet there of our existence.  There’s only one problem: M 13 lies so far away that we won’t receive a reply until AD 52,000!!!!!!!!!!!

Sketch was made large on A4 black cartridge paper using white and colored pastels,
while viewing an astrophotograph…the sketch was then scanned and processed in Photoshop CS.

Peter Desypris
Athens, Greece

Schiller Sextet

Schiller Sextet 

 This composite image started out as a single white pastel on black paper
sketch posted on the ‘Cloudy Nights’ sketching forum. As the discussion
around it evolved, other Cloudy Nighters posted their own sketches of this
distinctive crater, and I began to construct the montage seen here in it’s
final form. It is fascinating to see the same lunar feature captured in so
many different styles and with different media. Between us we have covered
nearly three years of Schiller observations, each at around the same
lunation stage of 11-12 days when the local lighting is advantageous and
dramatic. The sketching media used varied between white pastel (or Conte’)
on black paper, and graphite pencil (or charcoal) on white paper.

Equipment used (and magnification):

Sally Russell, 105mm F/6 refractor, 480x
Michael Rosolina, 8″ F/10 SCT, 200-170x
Rich Handy, 12″ SCT, 639x
Eric Graff, 6″ F/6 reflector, 240x
Jeremy Perez, 6″ F/8 Newtonian, 240x
Erika Rix, 70mm ETX, 88x

(With the kind permission of Michael, Rich, Eric, Jeremy and Erika, and with
my thanks to them for generously sharing their sketches and making this
project possible.)
 
Sally Russell

England

About 4.6 billion years ago, few million years after the formation of the proto Earth from the accretion of planetesimals in the nascent Solar nebula, our still molten world would suffer an impact from a another Mars sized protoplanet that would tear almost one fifth of the Earth’s crust and mantle away and scatter a debris cloud into Earth orbit. Soon thereafter this material would coalesce into the early Moon, the building of which would continue as major impacts accumulated over the next few billion years. Although at this time in our early Moon’s past much of the debris had already been swept clear of its orbital path, a close look at Luna herself would have revealed several stragglers, moons of our Moon in close tow. Jostled and buffeted by gravitational forces, these moons were either lost to space, impacted the early Earth, or were pulled inexorably until they plummeted to the lunar surface. Such impacts from degraded orbits share a common attribute, not only on the Moon, but on the other bodies of the Solar System as well. They all show an extremely shallow impact angle, usually in the range of 2 to 3 degrees to the surface. When such a moon strikes a body it will impart most of its kinetic energy longitudinally along its path, carving out a long elliptical shaped crater and sending ejecta laterally across the range. Working in tandem with these very oblique impacts are the tidal stresses that can break apart a small moon, thereby lengthening the “footprint” of the event by allowing space between successive strikes, much as seen in secondary crater chain formation.

Between 3.85 and 3.92 Billion years ago during the Nectarian epoch, one small gleaming moon was tugged and pulled, probably influenced by various mascons that had already developed in the gravitational field of the Moon. Falling out of orbit, it would follow a trajectory that would take it around the far side for the last time. As the little moon fell, tidal stresses split it into two or three large pieces, which traveled together as they continued their descent over the limb and around the southwest highlands, over the craters Gruemberger, Blancanus and finally Scheiner, where they impacted into the Zucchius-Schiller basin, creating the very oblong 174 km x 69 km crater, Schiller. Over the course of the next several hundred million years the flow of mare lavas would fill the basin and the floor of the long deep gouge, covering some the evidence of the violence of this event. So next time you are gazing at the Moon’s southwestern quadrant, stop by Schiller and remember when our Moon had moons.

Rich Handy
Poway, California

Seaside Crater

Gassendi 

Gassendi is my favourite crater due to its many varied features.  This
crater has it all, with central peaks, craterlets,  internal rilles, 
and a breached crater wall where the Sea of Moisture has flooded in.  
It also  borders onto a rough highland region. You can spend a lot of
time just taking in the whole view let alone trying to sketch it.  In
fact the biggest problem that one faces when doing lunar sketches has to
be deciding on the level of detail to include.   Sketch was done April
30/2004  using graphite pencils, black ink and whiteout on white
paper.   Telescope was a 6″ Maksutov Newtonian with binoviewer 20mm
eyepieces and 2x barlow.

Gerry Smerchanski
Teulon, Manitoba, Canada

Surprises on the Turkish Mediterranian

Eclipse 

Eclipse

The total solar eclipse seen from the Turkish Mediterranean coast last year
was our first eclipse. It was an overwhelming and unforgettable experience.
We wanted to soak up the spectacle and so deliberately did not take a
camera, our only equipment was binoculars for a quick look at prominences
and the corona immediately after the start of totality.

All the textbook sights were there, Venus and Mercury before totality, the
pink prominences, a gauzy corona pearly white and twisted and pulled by the
sun’s magnetic fields, diamond rings whiter than diamonds and the receding
lunar shadow blotting out distant mountains. That much was expected. But the
overpowering impressions were the ones that were not expected. The point
like sun and greying light before totality like being in a steel tank lit by
a single light bulb. The rapid and wholly shocking plunge downwards in light
as totality started. The swiftly changing and blazing diamond rings, the
sheer speed of it all. For the first time we got the real sense that we were
on a turning Earth with the Moon and Sun shifting and moving in the heavens.

This little acrylic on board painting tries to sum up those impressions. It
fails miserably – but then what could succeed when pitted against a real
solar eclipse!

Les Cowley

Tale of the Swan

Comet M4 Swan

SWAN M4 Comet

24th October 2006. around 18:30 UT
Novo Cice, Croatia
This sketch was created on plain A4 paper using graphite pencils and
fingers (for blurring). Later it was scanned and inverted in Photoshop
after some minor contrast and brightness adjustments.
I used 8″ F6 Dobson, and GSO WideAngle 15mm eyepiece. Magnification was
80x and field of view around 0.8°. Limiting magnitude was 5.30 and
transparency was good. Comet was very bright and obvious in finder and
it was near M13. In eyepiece it was real showpiece. Head of comet was very bright,
teal and with star like nucleus. Very faint tail was visible running from the
head of the comet. Estimated length of tail was around 1°. Probably the
most magnificent comet in the year 2006 that I had opportunity to observe.

Vedran Vrhovac
www.inet.hr/~vevrhova/english/index.htm