The Moon - Orion Observer80 EQ ultra Instruction Manual

night vision for days. So give yourself at least a little while to
get used to the dark before you begin observing.
To see what you're doing in the darkness, use a red-filtered
flashlight rather than a white light. Red light does not spoil
your eyes' dark adaptation like white light does. A flashlight
with a red LED light is ideal, or you can cover the front of a
regular incandescent flashlight with red cellophane or paper.
Beware, too, that nearby porch and street lights and car head-
lights will ruin your night vision.
"seeing" and transparency
Atmospheric conditions vary significantly from night to night.
"Seeing" refers to the steadiness of the Earth's atmosphere at
a given time. In conditions of poor seeing, atmospheric turbu-
lence causes objects viewed through the telescope to "boil."
If, when you look up at the sky with just your eyes, the stars
are twinkling noticeably, the seeing is bad and you will be
limited to viewing with low powers (bad seeing affects images
at high powers more severely). Planetary observing may also
be poor.
In conditions of good seeing, star twinkling is minimal and
images appear steady in the eyepiece. Seeing is best over-
head, worst at the horizon. Also, seeing generally gets better
after midnight, when much of the heat absorbed by the Earth
during the day has radiated off into space.
Avoid looking over buildings, pavement, or any other source
of heat, as they will cause "heat wave" disturbances that will
distort the image you see through the telescope.
Especially important for observing faint objects is good "trans-
parency"—air free of moisture, smoke, and dust. All tend to
scatter light, which reduces an object's brightness.
Transparency is judged by the magnitude of the faintest stars
you can see with the unaided eye (6th magnitude or fainter is
desirable).
How to Find interesting celestial objects
To locate celestial objects with your telescope, you first need
to become reasonably familiar with the night sky. Unless you
know how to recognize the constellation Orion, for instance,
you won't have much luck locating the Orion Nebula, unless,
or course, you look up its celestial coordinates and use the
telescope's setting circles. Even then, it would be good to
know in advance whether that constellation will be above the
horizon at the time you plan to observe. A simple planisphere,
or star wheel, can be a valuable tool both for learning the
constellations and for determining which ones are visible on
a given night at a given time.
A good star chart or atlas will come in very handy for helping
find objects among the dizzying multitude of stars overhead.
Except for the Moon and the brighter planets, it's pretty time-
consuming and frustrating to hunt for objects randomly,
without knowing where to look. You should have specific tar-
gets in mind before you begin observing.
Start with a basic star atlas, one that shows stars no fainter
than 5th or 6th magnitude. In addition to stars, the atlas will
show the positions of a number of interesting deep-sky
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objects, with different symbols representing the different
types of objects, such as galaxies, open star clusters, globu-
lar clusters, diffuse nebulas, and planetary nebulas. So, for
example, your atlas might show that there is a globular cluster
sitting just above the lid of the "Teapot" pattern of stars in
Sagittarius. You then know to point your telescope in that
direction to home in on the cluster, which happens to be
6.9-magnitude Messier 28 (M28).
You can see a great number and variety of astronomical
objects with your Observer 80 EQ Ultra, including:

the Moon

With its rocky, cratered surface, the Moon is one of the easiest
and most interesting targets to view with your telescope. The
best time to observe our one and only natural satellite is during
a partial phase, that is, when the Moon is NOT full. During
partial phases, shadows on the surface reveal more detail,
especially right along the border between the dark and light
portions of the disk (called the "terminator"). A full Moon is too
bright and devoid of surface shadows to yield a pleasing view.
the Planets
The planets don't stay put like the stars (they don't have fixed
R.A. and Dec. coordinates), so you'll have to refer to charts
published monthly in Astronomy, Sky & Telescope, or other
astronomy magazines to locate them. Venus, Mars, Jupiter,
and Saturn are the brightest objects in the sky after the Sun
and the Moon. Not all four of these planets are normally visi-
ble at any one time.
JUPITER The largest planet, Jupiter, is a great subject to
observe. You can see the disk of the giant planet and watch
the ever-changing positions of its four largest moons, Io,
Callisto, Europa, and Ganymede. If atmospheric conditions
are good, you may be able to resolve thin cloud bands on the
planet's disk.
SATURN The ringed planet is a breathtaking sight when it is
well positioned. The tilt angle of the rings varies over a period
of many years; sometimes they are seen edge-on, while at
other times they are broadside and look like giant "ears" on
each side of Saturn's disk. A steady atmosphere (good see-
ing) is necessary for a good view. You may probably see a tiny,
bright "star" close by; that's Saturn's brightest moon, Titan.
VENUS At its brightest, Venus is the most luminous object in
the sky, excluding the Sun and the Moon. It is so bright that
sometimes it is visible to the naked eye during full daylight!
Ironically, Venus appears as a thin crescent, not a full disk,
when at its peak brightness. Because it is so close to the Sun,
it never wanders too far from the morning or evening horizon.
No surface markings can be seen on Venus, which is always
shrouded in dense clouds.
MARS If atmospheric conditions are good, you may be able
to see some subtle surface detail on the Red Planet, possibly
even the polar ice cap. Mars makes a close approach to Earth
every two years; during those approaches its disk is larger
and thus more favorable for viewing.