OBSERVING
Deep-Sky Wonders
58 September 2014 sky & telescope
In 1804 Giuseppe Piazzi deduced the large proper
motion of 61 Cygni from previous observations made by
himself and others, and he cataloged the results two years
later. In 1838 Friedrich Wilhelm Bessel calculated the
distance to 61 Cygni based on precise measurements of
the star’s parallax — the shift in its apparent position due
to Earth’s changing perspective as it orbits the Sun. That
was the fi rst accurate measurement of the distance to any
object outside our solar system.
Through my 130-mm scope at 23×, 61 Cygni’s primary
star appears deep gold, and its modestly fainter compan-
ion to the south-southeast looks a bit more orange to me.
In reality, the two stars have nearly the same spectral
type, the brighter one K5 and the dimmer one K7, which
weigh in at three-fourths and one-half the mass of our
Sun, respectively. What colors do you see?
Climbing 2.4°° north from Sigma (σ) Cygni we come
to the exceptionally ancient open cluster Berkeley 56. A
2011 Astronomical Journal paper by Kenneth A. Janes and
Sadia Hoq puts it at 6 billion years old and 36,000 light-
years away from us.
Through my 10-inch refl ector at 43×, Berkeley 56 is a
faint, grainy powder. Two stars closely guard its northwest
quadrant, magnitudes 10.5 and 12.3. Perched north of the
This photomosaic makes it clear why the North America Nebula
got its name. The Pelican Nebula, to its right, is harder to make
out because the deep exposure tends to fi ll in the dark nebula
that divides the beak from the body. IC 5068 is the tripartite
nebula below the Pelican
ROBERT GENDLER
6884
Alessi-Teutsch 11
6856
Berk 56
_ b
a
i
m
o
t^1
k^1
t^2
k^2
s
20
23
30
33
61
Deneb
6866
6910
M29
7039
7044
7062
7086
8
6888
IC 5068
6826
7008
7027
7048
+55°
21 h 00 m 20 h 30 m 20 h 00 m 19 h 30 m
+50°
+45°
+40°
26
Pelican
Nebula
North America
Nebula (7000)
j (IC 5070)
Star magnitudes
2
7
3
4
5
6
cluster, a distinctive pattern of fi ve 9th- to 12th-magnitude
stars forms a slender V that has slightly curved sides and
points northwest. At 115× four stars arc across the haze,
two in the south-southwestern edge, one at the center,
and one in the northern edge. At 213× several extremely
faint stars dot the haze, but these are probably in the
foreground. The brightest possible cluster member listed
by Janes and Hoq is magnitude 14.3, and the rest are mag-
nitude 15.6 and fainter.
Berkeley 56 is exceedingly rich in stars, otherwise it
wouldn’t have been able to hold itself together for such a
long time. Janes and Hoq catalog 997 possible members,
most well beyond the reach of amateur telescopes. How
many stars can those of you with very large scopes pry out
of the haze? ✦
DSW layout.indd 58 6/23/14 12:17 PM