Meade114EQASTR 3/28/07 9:33 AM Page 1
MEADE INSTRUCTION MANUAL
114mm | 4.5" Equatorial Reflecting Telescope
114EQ-ASTR
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Meade114EQASTR 3/28/07 9:33 AM Page 3
INTRODUCTION
Setting up your telescope involves these
simple steps:
• Assemble your tripod
• Attach the accessory tray
• Attach the red dot viewfinder
• Attach the eyepiece
• Attach the counterweight
• Prepare mount
• Attach the optical tube to the mount
Your telescope is an excellent beginner’s
instrument, and is designed to observe
objects in the sky. It can be your personal
window on the universe .
1
The telescope is shipped with the following
parts:
• Optical tube
• Aluminum tripod with an accessory tray
• Two 1.25" eyepieces: MA9mm, MA25mm
• Red Dot viewfinder with bracket
• Telescope mount
Study the the picture on the next page and
become acquainted with the parts of your
telescope. Then proceed to “Assemble
your Tripod.”
• Hardware used in the assembly:
3 bolts (2" long) with wing nuts and
washers
3 screws (1/2" long) with nuts
The tube has a focal length of 1000mm,
and its objective lens has a diameter of
114mm. The lens diameter is one of the
most important pieces of information about
the telescope. The size of the objective lens
determines how much detail you will be
able to see in your telescope. The focal
length information will help later on to
calculate magnification.
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Meade114EQASTR 3/28/07 9:33 AM Page 4
Figure 1: Mead 114EQ-ASTR Equatorial Reflecting Telescope
Inset A
FIGURE 1
Inset A:
Inset B:
Inset C:
Accessory Tray
Red Dot Viewfinder Assembly
Tripod Leg
2
1. Tripod legs
22. Red dot viewfinder
2. Equatorial Mount
23. Telescope front dust cover
(not shown)
24. Leg brace (see Inset A)
25. Right Ascension setting circle
26. Declination setting circle
(see Fig. 5)
27. Latitude dial (see Fig. 5)
28. Sliding leg extension
(see Inset C)
3. Right ascension control cable
4. Declination control cable
5. Counterweight
Inset B
(not shown)
6. Counterweight shaft
7. Counterweight lock knob
8. Counterweight safety washer
9. Latitude adjustment lock (see Fig.5)
10. Polar axis (see Fig. 5)
11. Azimuth adjustment knob
12. Main optical tube (OTA)
13. Optical tube saddle plate (see Fig. 5)
14. Red dot viewfinder bracket mounting
thumbscrews (see Inset B)
15. Focuser
29. Focus knobs
30. Attachment wingnuts
31. Azimuth base (see Fig. 5)
32. Red dot viewfinder alignment
screws (see Inset B)
33. Azimuth circle (see Fig. 5)
34. Tripod leg Phillips-head fastener
screws (see Fig. 5)
Inset C
16. Eyepiece holder thumbscrew
17. Eyepiece
18. Red dot viewfinder bracket
(see Inset B)
19. Declination axis (see Fig. 5)
20. Right Ascension lock (see Fig. 5)
21. Declination lock (see Fig. 5)
35. Tripod-to-mount wingnuts
36. Accessory tray (see Inset A)
37. Leg brace support (see Inset A)
38. Sliding leg extension lock
(see Inset C)
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Meade114EQASTR 3/28/07 9:33 AM Page 5
4. Thread a wingnut over the bolt and hand-
tighten to a firm feel.
5. Attach the remaining two legs to the
mount in the same manner.
6. Spread the legs out evenly apart.
7. Set the height of your tripod:
ASSEMBLE YOUR TRIPOD
Fig. 4
The tripod is the basic support for your
telescope. Its height may be adjusted so that
you can view comfortably.
Note: Number in brackets, e.g., (3), refer
to Fig. 1.
1. Make sure that as you attach the legs (1)
to the mount that the leg braces (24) are
facing inward.
2. Line up the holes at the top of one of the
legs with the holes in the mount.
See Fig. 2.
3
a. Rotate and loosen the leg lock
thumbscrew (38) to unlock the
leg lock.
Fig. 3
Meade accessories, such as the Barlow lens.
1. Line up the holes at the end of one of the
leg brace supports (8) with the holes in
one of the leg braces (9).
2. Thread one of the one-half inch bolts
through the holes.
finger tighten the
hex nut
3. Thread one of the 2-inch bolts through
the holes.
Fig. 2
3. Thread a hex nut over the end of the bolt.
4. Finger tighten the bolt and hex nut.
See Fig. 3.
5. Repeat with the two other leg braces.
6. Thread the accessory tray (26) over the
center mounting bolt to a firm feel.
mount
b. Slide the inner portion of the leg (39) in
or out to the desired length. Repeat for
the other two legs.
c. Rotate and tighten the leg lock
thumbscrew to relock the leg lock.
2” Screw
ATTACH THE RED DOT VIEWFINDER
d. Repeat for the other two legs.
An eyepiece (17) has a narrow field of view. A
viewfinder (22) makes it easier to locate
objects. The red dot viewfinder has a red dot
ATTACH THE ACCESSORY TRAY
The tray helps stabilize the tripod and is also
a convenient holder of eyepieces and other
tripod
leg
washer
wingnut
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 6
Fig. 5
to make it easier to line up more
precisely with a target.
1. Note the two thumbscrews (16,
Fig. 4) thread onto two bolts on the
optical tube. Remove the thumbscrews
from the tube.
the shaft. This safety feature prevents the
counterweight from accidently slipping.
4
(not shown)
ATTACH THE OPTICAL TUBE TO THE
MOUNT
1. Insert the two bolts on the bottom of
the optical tube (4) into the bolt holes
on the saddle plate (13)
2. Tighten the attachment wingnuts (42) to
a firm feel.
2. Line up the two holes on the red dot
viewfinder bracket over the two bolts.
Slide the bracket over the bolts.
3. Replace the thumbscrews onto the bolts
and tighten to a firm feel.
PREPARE MOUNT
INSERT THE EYEPIECE
1. Attach the flexible cables (3) and (4)
(See Fig. 6). These cables are secured
in place with a firm tightening of the
thumbscrews located at the attachment
ends of each cable.
2. Tilt the polar axis of the telescope to
roughly a 45° angle with the horizon:
Loosen the latitude adjustment lock
(9) so you can move the mount to the
desired position.
1. Slide the MA25mm eyepiece (17) into
eyepiece holder on the focuser (15).
2. Tighten the eyepiece holder thumbscrew
(16) to hold the eyepiece securely.
support the counterweight with one hand
while performing this step.
3. Slide the counterweight to a position
about 2" from the bottom of the shaft.
4. Secure in place by tightening the
counterweight lock (7, Fig. 5).
Note: Make sure the safety washer and
screw (8, Fig. 5) always remain in place on
ATTACH THE COUNTERWEIGHT
1. Hold the counterweight (5, Fig. 5)
firmly in one hand, and slide the
counterweights onto the counterweight
shaft (6, Fig. 5).
2. Thread the shaft into the base of the
declination axis (19,Fig. 5). Be sure to
3. Re-tighten the latitude adjustment lock
(9) to secure the mount in place.
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 7
bright star, and use the viewfinder’s
alignment screws to make any
necessary refinements.
BALANCING THE TELESCOPE
SUN WARNING
NEVER USE YOUR
In order for the telescope to move smoothly
on its mechanical axes, it must first be
balanced as follows:
1. Loosen the right ascension lock (20, Fig.
5). The telescope mount will turn freely
about the polar axis. Rotate the telescope
about the polar axis so that the
counterweight shaft (6) is parallel to the
horizon (horizontal).
2. Loosen the counterweight's locking
thumbscrew (7) and slide the
5
TELESCOPE TO LOOK AT THE SUN!
UNDERSTANDING CELESTIAL MOVEMENTS
AND COORDINATES
LOOKING AT OR NEAR THE SUN WILL CAUSE
INSTANT AND IRREVERSIBLE DAMAGE TO
YOUR EYE. EYE DAMAGE IS OFTEN
PAINLESS, SO THERE IS NO WARNING TO
THE OBSERVER THAT DAMAGE HAS
OCCURRED UNTIL IT IS TOO LATE. DO NOT
POINT THE TELESCOPE OR ITS VIEWFINDER
AT OR NEAR THE SUN. DO NOT LOOK
THROUGH THE TELESCOPE OR ITS
Understanding where to locate celestial
objects and how those objects move across
the sky is the key to enjoying the hobby of
astronomy. Most amateur astronomers
practice "star-hopping" to locate celestial
objects. They use star charts or
astronomical software to identify bright
stars and star patterns as "landmarks" in
their search for astronomical objects.
Another technique for locating objects is to
use the setting circles that are provided on
your telescope.
counterweights (5) along the shaft until
the telescope does not drift up or down.
Retighten the counterweight lock (7). The
telescope is now balanced.
VIEWFINDER AS IT IS MOVING. CHILDREN
SHOULD ALWAYS HAVE ADULT SUPERVISION
WHILE OBSERVING.
focused. Center the object precisely in the
eyepiece’s field of view.
2. Look through the red dot viewfinder. Turn
one or more of the viewfinder’s alignment
screws (32, Inset B) until the red dot is
precisely over the same object as you
centered in the eyepiece.
ALIGN THE RED DOT VIEWFINDER
Perform the first part of this procedure
during the daytime and the last step
at night.
1. Point the telescope at an easy-to-find
land object such as the top of a telephone
pole or a distant mountain or tower. Look
through the eyepiece and turn the focuser
knob (29) until the image is sharply
THE MEADE 4M COMMUNITY
You haven’t just bought a telescope, you have embarked
on an astronomy adventure that never ends. Share the
journey with others by accepting your free membership
in the 4M community of astronomers.
3. Check this alignment at night on a
celestial object, such as the Moon or a
today.
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 8
Los Angeles, California, by its latitude
(+34°) and longitude (118°). Similarly, you
can locate the Ring Nebula (also known as
"M57") by its Right Ascension (18hr) and its
Declination (+33°).
the system of latitude and longitude on
Earth surface maps.
UNDERSTANDING HOW CELESTIAL
OBJECTS MOVE
6
In mapping the surface of the Earth, lines
of longitude are drawn between the North
and South Poles and lines of latitude are
drawn in an East-West direction, parallel to
the Earth's equator. Similarly, imaginary
lines have been drawn to form a latitude
and longitude on the celestial sphere.
These lines are known as Right Ascension
and Declination.
Due to the Earth's rotation, celestial
bodies appear to move from East to
West in a curved path through the skies.
• RIGHT ASCENSION (R.A.): This Celestial
version of longitude is measured in units
of hours (hr), minutes (min), and seconds
(sec) on a 24 hour "clock" (similar to how
Earth's time zones ar determined by
longitude lines). The "zero" line was
All stars and celestial objects are mapped
onto an imaginary sphere surrounding the
Earth. This mapping system is similar to
Fig. 6
North
Celestial
Pole
chosen to pass through the constellation
Pegasus, a sort of cosmic Greenwich
meridian. R.A. coordinates range from 0hr
0min 0sec to 23hr 59min 59sec. There are
+90 Déc.
The celestial map also contains two poles
and an equator just like a map of the Earth.
The celestial poles are defined as those two
points where the Earth's North and South
poles, if extended to infinity, would cross the
celestial sphere. Thus, the North Celestial
Pole is that point in the sky where the North
Pole crosses the celestial sphere. The North
Star, Polaris, is located very near the North
Celestial Pole.
(Vicinity of
Polaris)
Star
Celestial
Equator
12
11
13
10
14
15
21
9
3
16
20
8
4
17
18
19
7
Rotation
of the
Earth
6
5
2
22
0 Dec.
1
23
0
Jupiter’s four brightest moons are
easily visible in a telescope. When
Galileo Galilei first observed them
rotating around Jupiter in 1610, he
saw proof that the earth wasn’t
the center of everything in the
universe, as many then
Right
Ascension
So just as an object's position on the Earth's
surface can be located by its latitude and
longitude, celestial objects may also be
located using Right Ascension and
South
Celestial
Pole
-90 Dec.
supposed.
Declination. For example: You can locate
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 9
Fig. 7
with their celestial coordinates of Right
Ascension and Declination.
this level of pointing accuracy, the
telescope can track accurately by
slowly turning the telescope's R.A.
flexible cable control and keep objects
7
LINING UP WITH THE CELESTIAL POLE
Little Dipper
Polaris
in the telescopic field of view for perhaps 20
to 30 minutes.
Objects in the sky appear to revolve around
the celestial pole. (Actually, celestial objects
are essentially "fixed" and their apparent
motion is caused by Earth's rotation). During
any 24 hour period, stars make one
complete revolution about the pole, circling
with the pole at the center. By lining up the
telescope's polar axis with the North
POLAR ALIGNMENT OF THE EQUATORIAL
MOUNT
Big Dipper
Cassiopeia
To line up the Polaris 114 EQ-AR with the
pole, follow this procedure:
24 primary lines of R.A., located at 15-
degree intervals along the celestial
equator. Objects located further and
further East of the zero R.A. grid line (0hr
0min 0sec) carry higher R.A. coordinates.
1. Release the Azimuth lock (11) of the
Celestial Pole (or for observers located in
Earth's Southern Hemisphere with the South
Celestial Pole), astronomical objects may be
followed, or "tracked," by moving the
Azimuth base, so that the entire telescope-
TOO MUCH POWER?
• Declination (Dec.): This celestial version
of latitude is measured in degrees, arc-
minutes, and arc-seconds (e.g., 15° 27'
33"). Dec. locations North of the celestial
equator are indicated with a plus (+) sign
(e.g., the Dec. of the North celestial pole
is +90°). Any point on the celestial equator
(such as thee constellations of Orion,
Virgo, and Aquarius) is said to have a
Declination of zero, shown as 0° 0' 0". All
celestial objects therefore may be located
telescope about one axis, the polar axis.
Can you ever have too much power? If the type of
power you’re referring to is eyepiece magnification,
yes you can! The most common mistake of the
beginning observer is to “overpower” a telescope by
using high magnifications which the telescope’s
aperture and atmospheric conditions cannot
reasonably support. Keep in mind that a smaller,
but bright and well-resolved image is far superior
to one that is larger, but dim and poorly resolved.
Powers above 400x should be employed only under
the steadiest atmospheric conditions.
If the telescope is reasonably well aligned
with the pole very little use of the
telescope's Declination flexible cable control
is necessary. Virtually all of the required
telescope tracking will be in Right
Ascension. For the purposes of casual visual
telescopic observations, lining up the
telescope's polar axis to within a degree or
two of the pole is more than sufficient: with
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 10
centered in the telescope's viewfinder
sights in the universe are, but that’s OK. Just
point and observe at first.
with-mounting may be rotated in a
horizontal direction. Rotate the
eyepiece, then re-tighten the latitude lock.
8
telescope until it points due North. Use
4. If the above steps (1-3) were performed
with reasonable accuracy, your telescope is
now sufficiently well-aligned to the North
Celestial Pole for visual observations.
You will enjoy your telescope even more as
you learn more about it. But don’t be scared
off by difficult terms or complicated
procedures. Don’t panic! Just relax and enjoy
your scope.
a compass or locate Polaris, the North
Star, as an accurate reference to North
(See Fig. 7).
2. Level the mount with the horizon, if
necessary, by adjusting the heights of the
three tripod legs.
Once the mount has been polar-aligned as
described above, the latitude angle need
not be adjusted again, unless you move to
a different geographical location (i.e. a
different latitude). The only polar alignment
procedure that you need to perform each
time you use the telescope is to point the
polar axis due North, as described in
step 1.
You will begin to grow and learn more about
astronomy the more you observe. Go to the
library and read some books about the stars
and planets. Read about astronomers of old.
Many of them had telescope no bigger than
the one you are using right now. Galileo, who
is one of the first astronomers to use a
telescope, discovered four of the moons
of Jupiter with a telescope about the same
size as yours (and his didn’t even focus
very well!).
3. Determine the latitude of your observing
location by checking a road map or atlas.
Release the latitude lock (9) and tilt the
telescope mount so that the star "Polaris" is
THE MOST IMPORTANT RULE
We have one very important rule that
you should always follow when using
your telescope:
OBSERVING
Saturn’s rings of ice, dust and gas
are huge and small at the same
time. The main rings are so large
they could almost reach from the
earth to the moon. But they are
only about a half of a mile
(just a few city blocks)
Observe during the daytime: Try out your
telescope during the daytime at first. It is
easier to learn how it operates and how to
observe when it is light.
Have Fun!
Have a good time when you’re observing. You
may not know everything that there is to
know about a telescope or what all the
wide.
Pick out an easy object to observe: A
distant mountain, a large tree, a lighthouse
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 11
or skyscraper make excellent targets. Point
the optical tube so it lines up with your
object. Objects will appear upside down and
backwards in this model telescope.
Moon is a crescent. No shadows are
seen during a full Moon, making it
appear flat and uninteresting.
can see the object. It will be easier to locate
an object using the red dot viewfinder rather
than locating with the eyepiece. Line up the
object using the viewfinders red dot.
9
Look for different features on the
Unlock the lock knobs: To move the
telescope, you will need to unlock the Right
Ascension (3, Fig. 5) and Declination (4, Fig.
5) lock knobs (just rotate to unlock or lock;
when locking, only tighten to a “firm feel,” do
not overtighten).
Moon. The most obvious features are
craters. In fact you can see craters within
craters. Some craters have bright lines
Look through the eyepiece: Once you have
the object lined up in the viewfinder, look
through the optical tube’s eyepiece. If you
have aligned your viewfinder, you will you see
the object in your eyepiece.
about them. These are called rays and are
the result of material thrown out of the
crater when it was struck by a colliding
object. The dark areas on the Moon are
called maria and are composed of lava from
the period when the Moon still had volcanic
activity. You can also see mountain ranges
and fault lines on the Moon.
Focus: Look through the eyepiece
and practice focusing on the object you
have chosen.
Use the red dot viewfinder: If you have not
done so, align the viewfinder (22) with the
telescope’s eyepiece (17) as described earlier.
Look through the red dot viewfinder until you
Try out the slow-motion flexible cable
control: Practice using the right ascension
control cable (3) and declination control
cable (4) to move the telescope. These can
come in very handy, especially when you wish
to move the telescope in very small (fine
control) steps.
SURF THE WEB
•
•
•
•
•
•
The Meade 4M Community:
Sky & Telescope:
Astronomy:
Just below the constellation Orion’s
famous belt of three stars (in the
middle of his sword), is The Great
Orion Nebula. This wonderful
telescope target is really a cosmic
star factory where a glowing
gas cloud surrounds hot
Observe the Moon: When you feel
comfortable with the viewfinder, the
eyepieces, the locks and the adjustment
controls, you will be ready to try out the
telescope at night. The Moon is the best
object to observe the first time you
go out at night. Pick a night when the
Astronomy Picture of the Day:
Photographic Atlas of the Moon:
Hubble Space Telescope Public Pictures:
young stars.
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 12
Fig. 8
When Mars is close to the Earth, you can see
some details on Mars, and sometimes even
Mars’ polar caps. But quite often, Mars is
further away and just appears as a red dot
with some dark lines crisscrossing it.
Use a neutral density filter (often called
a “moon filter”) when observing the
10
Moon. Neutral density filters are
available from Meade as an optional
accessory and enhance contrast to improve
your observation of lunar features.
Jupiter, Saturn, Uranus, Neptune and Pluto
comprise the outer planets. These planets,
except for Pluto, are made mostly of gases
and are sometimes called gas giants. If they
had grown much bigger, they may have
become stars. Pluto is made mostly of ice.
Spend several nights observing the Moon.
Some nights, the Moon is so bright that it
makes other objects in the sky difficult to
see. These are nights that are excellent for
lunar observation.
Jupiter is quite interesting to observe. You
can see bands across the face of Jupiter. The
more time you spend observing these bands,
the more details you will be able to see.
Observe the Solar System: After observing
the Moon, you are ready to step up to the
next level of observation, the planets.
There are four planets that you can easily
observe in your telescope: Venus, Mars,
Jupiter and Saturn.
have found large objects in this area and
they may increase the number of planets in
our solar system.
The four planets closest to the Sun are rocky
and are called the inner planets. Mercury,
Venus, Earth and Mars comprise the inner
planets. Venus and Mars can be easily seen
in your telescope.
STAR CHARTS
Star charts and planispheres are useful for a variety of
reasons. In particular, they are a great aid in planning a
night of celestial viewing.
Nine planets (maybe more!) travel in a fairly
circular pattern around our Sun. Any system
of planets orbiting one or more stars is
called a solar system. Our Sun, by the way,
is a single, yellow dwarf star. It is average as
far as stars go and is a middle aged star.
A wide variety of star charts are available in books, in
magazines, on the internet and on CD Roms. Meade
offers star locator software. Contact your local Meade
dealer or Meade’s Customer Service department for
more information.
Venus is seen before dawn or after sunset,
because it is close to the Sun. You can
observe Venus going through crescent
phases. But you cannot see any surface
detail on Venus because it has a very thick
atmosphere of gas.
Astronomy and Sky and Telescope magazines print star
charts each month for up-to-the-minute maps of the
heavens.
Beyond the planets are clouds of comets, icy
planetoids and other debris left over from
the birth of our sun. Recently astronomers
Looking at or near the Sun will cause irreversible damage to your eye. Do not point this telescope at or near the Sun. Do not look through the telescope as it is moving.
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Meade114EQASTR 3/28/07 9:33 AM Page 13
One of the most fascinating sights of Jupiter
are its moons. The four largest moons are
called the Galilean moons, after the
The first thing you will notice is that not
all stars are the same colors. See if you
can find blue, orange, yellow, white and
red stars. The color of stars sometimes
can tell you about the age of a star and the
temperature that they burn at.
may not see many features on the surface of
Saturn, its ring structure will steal your
breath away. You will probably be able to see
a black opening in the rings, known as the
Cassini band.
11
astronomer Galileo, who observed them for
the first time. If you’ve never watched the
Galilean moons in your telescope before,
you’re missing a real treat! Each night, the
moons appear in different positions around
the Jovian sky. This is sometimes called the
Galilean dance. On any given night, you
might be able to see the shadow of a moon
on the face of Jupiter, see one moon eclipse
another or even see a moon emerge from
behind Jupiter’s giant disk. Drawing the
positions of the moons each night is an
excellent exercise for novice astronomers.
Saturn is not the only planet that has rings,
but it is the only set of rings that can be
seen with a small telescope. Jupiter’s rings
cannot be seen from Earth at all—the
Voyager spacecraft discovered the ring after
it passed Jupiter and looked back at it. It
turns out, only with the sunlight shining
through them, can the rings be seen. Uranus
and Neptune also have faint rings.
Other stars to look for are multiple stars.
Very often, you can find double (or binary)
stars, stars that are very close together.
These stars orbit each other. What do you
notice about these stars? Are they
different colors? Does one seem brighter
than the other?
Almost all the stars you can see in the sky
are part of our galaxy. A galaxy is a large
Optional color filters help bring out detail
and contrast of the planets. Meade offers a
line of inexpensive color filters.
Any small telescope can see the four
ASTRONOMY RESOURCES
Galilean moons of Jupiter (Fig. 8), plus a few
others, but how many moons does Jupiter
actually have? No one knows for sure! Nor
are we sure how many Saturn has either. At
last count, Jupiter had over 60 moons, and
held a small lead over Saturn. Most of these
moons are very small and can only be seen
with very large telescopes.
What’s Next? Beyond the Solar System:
Once you have observed our own system of
planets, it’s time to really travel far from
home and look at stars and other objects.
•
•
The Meade 4M Community
6001 Oak Canyon, Irvine, CA 92618
Astronomical League
Executive Secretary
5675 Real del Norte, Las Cruces, NM 88012
The Astronomical Society of the Pacific
390 Ashton Ave., San Francisco, CA 94112
The Planetary Society
65 North Catalina Ave, Pasadena, CA 91106
International Dark-Sky Association, Inc.
3225 N. First Avenue, Tucson, AZ 85719-2103
•
•
•
You can observe thousands of stars with
your telescope. At first, you may think stars
are just pinpoints of light and aren’t very
interesting. But look again. There is much
information that is revealed in stars.
Probably the most memorable sight you will
see in your telescope is Saturn. Although you
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Meade114EQASTR 3/28/07 9:33 AM Page 14
Fig. 9
You will also be able to see some nebulas
with your scope. Nebula means cloud. Most
nebulas are clouds of gas. The two easiest to
see in the Northern Hemisphere are the
Orion nebula during the winter and the
Triffid nebula during the summer. These are
large clouds of gas in which new stars are
being born. Some nebulas are the remains
of stars exploding. These explosions are
called supernovas.
grouping of stars, containing millions
or even billions of stars. Some galaxies
barlow
12
form a spiral (like our galaxy, the Milky
Way) and other galaxies look more like
a large football and are called elliptical
galaxies. There are many galaxies that are
irregularly shaped and are thought to have
been pulled apart because they passed too
close to—or even through—a larger galaxy.
eyepiece
You may be able to see the Andromeda
galaxy and several others in your telescope.
They will appear as small, fuzzy clouds. Only
very large telescope will reveal spiral or
elliptical details.
When you become an advanced observer you
can look for other types of objects such as
asteroids, planetary nebula and globular
clusters. And if you’re lucky, every so often a
bright comet appears in the sky, presenting
an unforgettable sight.
of Jupiter every night or so. Try to make
Jupiter and the moons approximately the
same size as they look in your eyepiece. You
will see that the moons are in a different
position every night. As you get better at
drawing, try more challenging sights, like a
crater system on the moon or even a nebula.
The more you learn about objects in the
sky, the more you will learn to appreciate
the sights you see in your telescope. Start
a notebook and write down the observations
you make each night. Note the time and
the date.
Go your library or check out the internet for
more information about astronomy. Learn
about the basics: light years, orbits, star
colors, how stars and planets are formed,
red shift, the big bang, what are the different
kinds of nebula, what are comets, asteroids
and meteors and what is a black hole. The
more you learn about astronomy, the more
The Sun is gigantic. It would take
109 earths side-by-side to make up
the diameter of the sun, and 1.3
million Earth’s to fill its volume.
Yet, due to distance, the Sun
looks exactly the same
Use a compass to make a circle, or trace
around the lid of a jar. Draw what you see in
your eyepiece inside the circle. The best
exercise for drawing is to observe the moons
size as the moon in
our sky.
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fun, and the more rewarding your telescope
will become.
Vibrations: Avoid touching the
four or five low-power and high power
eyepieces to view different objects and to
cope with different viewing conditions.
eyepiece while observing through the
telescope. Vibrations resulting from
such contact will cause the image to
13
SOME OBSERVING TIPS
Objects move in the eyepiece: If you are
observing an astronomical object (the Moon,
a planet, star, etc.) you will notice that the
object will begin to move slowly through the
telescopic field of view. This movement is
caused by the rotation of the Earth and
makes an object move through the tele-
scope’s field of view. To keep astronomical
objects centered in the field, simply move
the telescope on one or both of its axes—
vertically and/or horizontally as needed—try
using the telescopes coarse and fine
adjustment controls. At higher powers,
astronomical objects will seem to move
through the field of view of the eyepiece
more rapidly.
move. Avoid observing sites where vibrations
cause image movement (for example,
near railroad tracks). Viewing from the
upper floors of a building may also cause
image movement.
Eyepieces: Always begin your observations
using the 25mm low-power eyepiece. The
25mm eyepiece delivers a bright, wide field
of view and is the best to use for most
viewing conditions. Use the high-power 9mm
eyepiece to view details when observing the
Moon and planets. If the image become
fuzzy, switch back down to a lower power.
Changing eyepieces changes the power or
magnification of your telescope.
Let your eyes “dark-adapt:” Allow five or
ten minutes for your eyes to become “dark
adapted” before observing. Use a red-
filtered flashlight to protect your night vision
when reading star maps, or inspecting the
By the way, you might have noticed
something strange when you looked through
your eyepiece. The image is upside down and
reversed. That means reading words can be
a problem. But it has no affect on
JOIN AN ASTRONOMY CLUB, ATTEND A STAR PARTY
One of the best ways to increase your knowledge of
astronomy is to join an astronomy club. Check your
local newspaper, school, library, or telescope dealer/
store to find out if there’s a club in your area.
astronomical objects.
Place the object to be viewed at the edge of
the field and, without touching the telescope,
watch it drift through the field to the other
side before repositioning the telescope
so that the object to be viewed is again
placed at the edge of the field, ready to be
further observed.
Many groups also hold regularly scheduled Star Parties
at which you can check out and observe with many
different telescopes and other pieces of astronomical
equipment. Magazines such as Sky and Telescope and
Astronomy print schedules for many popular Star
Parties around the United States and Canada.
2X Barlow lens: You can also change
magnification by using a Barlow lens. The
Barlow lens doubles the power of your
telescope (See Fig. 9).
Meade offers a complete line of eyepieces
for your telescope. Most astronomers have
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telescope. Do not use use a regular
Dress Warm: Even on summer nights, the
air can feel cool or cold as the night wears
on. It is important to dress warm or to have
a sweater, jacket, gloves, etc., nearby.
SPECIFICATIONS
flash-light or turn on other lights when
Optical tube focal length . . 1000mm
Primary mirror diameter . 114mm (4.5")
Focal ratio. . . . . . . . . . . . . . f/8.8
14
observing with a group of other
astronomers. You can make your own
red filtered flashlight by taping red
cellophane over a flashlight lens.
Know your observing site: If possible, know
the location where you will be observing. Pay
attention to holes in the ground and other
obstacles. Is it a location where wild
animals, such as skunks, snakes, etc., may
appear? Are there viewing obstructions such
as tall trees, street lights, headlights and so
forth? The best locations are dark locations,
the darker the better. Deep space objects
are easiest to see under dark skies. But it is
still possible to observe even in a city.
Mounting type. . . . . . . . . . . Equatorial
Viewing through windows: Avoid setting up
the telescope inside a room and observing
through an opened or closed window pane.
Images may appear blurred or distorted due
to temperature differences between inside
and outside air. Also, it is a good idea to
allow your telescope to reach the ambient
(surrounding) outside temperature before
starting an observing session.
What do the specifications mean?
Optical tube focal length is simply a
measurement of the length of the optical
tube. In other words, this is the distance
light travels in the telescope before being
brought to focus in you eyepiece. Your tube
is 1000mm long.
Primary mirror diameter is how big the
mirror is on your scope. Telescopes are
always described by how large their primary
mirror is. Your telescope is 114mm or 4.5
inches. Other telescopes are 90mm, 8
inches, 16 inches, or even 3 feet in diameter.
The Hubble Telescope’s objective mirror
has a diameter of 2.4 meters (that’s 7.8
feet across!).
When to observe: Planets and other objects
viewed low on the horizon often lack
sharpness—the same object, when observed
higher in the sky, will appear sharper and
have greater contrast. Try reducing power
(change your eyepiece) if your image is
fuzzy or shimmers. Keep in mind that a
bright, clear, but smaller image is more
interesting than a larger, dimmer, fuzzy
one. Using too high a power eyepiece is one
of the most common mistakes made by
new astronomers.
Surf the Web and visit your local library:
The internet contains a huge amount of
astronomical information, both for children
and adults. Check out astronomy books from
your library. Look for star charts—these are
available on a monthly basis in Astronomy
and Sky and Telescope magazines.
HAVE A GOOD TIME,
ASTRONOMY IS FUN!
The focal ratio helps determine how fast the
photographic speed of a telescope is. The
lower the focal ratio number, the faster the
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Meade114EQASTR 3/28/07 9:33 AM Page 17
exposure. f/5 is faster than f/10. The faster
the ratio, the faster exposure time is
needed when a camera is hooked up to the
telescope. Your telescope has slower focal
ratio at f/8.8. Sometimes, astronomers use
focal reducers to make slow exposure
telescopes have faster focal ratios.
Look at the specifications. You will see that
the focal length of your scope is 1000mm.
Let’s say that you have obtained a 13mm
eyepiece. You can tell that what the focal
length of your eyepiece is as it is always
printed on the side of an eyepiece. Divide:
1000 ÷ 13, which equals 76.9. Round this off
to the nearest whole number and your new
eyepiece magnifies objects 77 times.
It’s worth repeating: Keep in mind that
a bright, clear, but smaller image is
more interesting than a larger,
15
dimmer, fuzzy one. Using too high a
power eyepiece is one of the most common
mistakes made by new astronomers. So
don’t think that higher magnification is
necessarily better—quite often the best
view is with lower magnification value!
USE THE SPECIFICATIONS TO CALCULATE
THE MAGNIFICATION OF YOUR EYEPIECE
If you use a Barlow lens with one of your
eyepieces, it doubles the magnification of
your eyepiece. Other types of Barlows can
triple or further increase the power of an
eyepiece. To find out how much your
magnification is when you use a Barlow,
multiply your eyepiece’s magnification
by two.
TAKING CARE OF YOUR TELESCOPE
The power of a telescope is how much it
magnifies objects. Your 25mm eyepiece
magnifies an object 28 times. Your 9mm
eyepiece magnifies objects 78 times.
Your telescope is a precision optical
instrument designed for a lifetime of
rewarding viewing. It will rarely, if ever,
require factory servicing or maintenance.
Follow these guidelines to keep your
telescope in the best condition:
But if you obtain other eyepieces, you can
calculate how much magnification they
have with your telescope. Just divide the
focal length of the telescope by the focal
length of the eyepiece.
Your 25mm low-power eyepiece magnifies
an object 28 times. Multiply 28 by 2 and you
get 56 times magnification with a Barlow.
• As with any quality instrument, lens or
mirror surfaces should be cleaned as
infrequently as possible. Front surface
aluminized mirrors, in particular, should
be cleaned only when absolutely
Focal Length of the Telescope
Eyepiece’s magnification x 2
÷
Focal Length of the Eyepiece
=
necessary. In all cases avoid touching
any mirror surface. A little dust on the
surface of a mirror or lens causes
negligible loss of performance and
=
Magnification with a 2X Barlow lens
Magnification
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Meade114EQASTR 3/28/07 9:33 AM Page 18
should not be considered
optical performance. In any case this
alignment procedure is simple, and
requires only a few minutes the very first
time the telescope is used. Take the time
to familiarize yourself with the following
collimation procedure, so That you will
recognize a properly collimated instrument
and can adjust the collimation yourself,
if necessary.
Fig. 10
reason to clean the surface.
16
When lens or mirror
cleaning does become
necessary, use a camel's hair
Monture
Diagonale
Miroir Diagonal
Image Focalisée
Miroir Primaire
brush or compressed air
gently to remove dust. If the
telescope's dust cover is
Vis D'inclinaison
du Miroir Primaire
replaced after each observing
session, cleaning of the optics
will rarely be required.
A. CORRECT COLLIMATION
The Newtonian Reflecting Telescope
• Fingerprints and organic
The properly collimated (aligned) mirror
system in the Polaris 114 EQ-AR assures
the sharpest images possible. This occurs
when the primary mirror and diagonal
mirror are tilted so that the focused image
falls directly through the center of the
focuser drawtube. These mirror tilt
adjustments are made with the diagonal
assembly and the primary mirror cell (Fig.
10) and will be discussed later.
Fig. 11
COLLIMATION
(ALIGNMENT) OF
OPTICS
materials on the lens or mirror may
be removed with a solution of 3 parts
distilled water to 1 part isopropyl
alcohol. You may also add 1 drop of
biodegradable dishwashing soap per
pint of solution. Use soft, white facial
tissues and make short, gentle
strokes. Change tissues often.
All Polaris 114 EQ-AR
telescopes are
optically aligned at the
factory prior to
shipment. It is unlikely
that you will need to
align, or collimate, the
optics after receipt of
the instrument.
2
CAUTION: Do not use scented
or lotioned tissues or damage
could result to the optics. DO NOT
use a commercial photographic
lens cleaner.
To inspect the view of the mirror
collimation, look down the focuser
drawtube with the eyepiece removed. The
edge of the focuser drawtube (1, Fig.13),
will frame the reflections of the primary
mirror with the 3 mirror clips (2, Fig. 13)
Diagonal Assembly
However, if the telescope received unusually
rough handling in shipment, it is possible
that the optics must be re-aligned for best
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Meade114EQASTR 3/28/07 9:33 AM Page 19
Fig. 12
Fig. 14
the reflection of the diagonal mirror as
possible. Once you are at the best
position, thread in the 3 Phillips-head
diagonal tilt screws to lock the
Fig. 13
1
17
1
2
2
3
3
rotational position. Then, if necessary, make
adjustments to these 3 Phillips-head
screws to refine the tilt-angle of the
diagonal mirror until the entire primary
mirror can be seen centered within the
diagonal mirror reflecting. When the
diagonal mirror is correctly aligned, it will
look like Fig. 13 (Note: The primary mirror
is shown out of alignment).
2
3
4
2
5
Diagonal Mirror Misalignment
Correct Collimation
Fig. 15
Primary Mirror Cell
1
2
the diagonal mirror (3, Fig. 13), the spider
vanes (4, Fig. 13), and your eye (5, Fig. 13).
Properly aligned, all of these reflections will
appear concentric (i.e., centered) as
illustrated in Fig. 13.
C. PRIMARY MIRROR ADJUSTMENTS
If the diagonal mirror (1, Fig. 15) and the
reflection of the primary mirror (2, Fig. 15)
3
4
Fig. 16
Any deviation from the concentric
reflections will require adjustments to the
diagonal assembly and/or the primary
mirror cell (Fig. 10).
Primary Mirror Misalignment
diagonal tilt screws (To adjust these screws
you must first remove an adhesive backing)
must be unthreaded slightly to the point of
where you can tilt the diagonal holder from
side-to-side by grasping the diagonal
holder with your hand and tilt until you see
the primary mirror become as centered in
B. DIAGONAL HOLDER ADJUSTMENTS
If the diagonal mirror (1, Fig. 14) is centered
in the drawtube (2, Fig. 14), but the primary
mirror is only partially visible in the
A
B
C
Collimation
reflection (3, Fig. 14), the 3 Phillips-head
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Meade114EQASTR 3/28/07 9:33 AM Page 20
(second or third magnitude) star, then
center the star image in the telescope's
field-of-view. With the star centered follow
the method below:
• Using the flexible cable controls move
the telescope until the star image is at
the edge of the field-of-view in the
eyepiece, as in Fig. 16B.
appear centered within the drawtube
(3, Fig. 15), but the reflection of your
18
eye and the reflection of the diagonal
mirror (4, Fig. 15) appear off center,
you will need to adjust the primary mirror
tilt Phillips-head screws of the primary
mirror cell (3, Fig. 10). These primary tilt
screws are located behind the primary
mirror, at the lower end of the main tube.
To adjust the primary mirror tilt screws,
first unscrew several turns, the 3 hex-head
primary mirror cell locking screws (2, Fig.
10) that are next to each primary mirror tilt
Phillips-head screw. Then by trial-and-
error, turn the primary mirror tilt Phillips-
head screws (3, Fig. 10) until you develop a
feel for which way to turn each screw to
center the reflection of your eye. Once
centered, as in Fig. 13, turn the 3 hex-head
primary mirror cell locking screws (2, Fig.
10) to relock the tilt-angle adjustment.
• Bring the star image slowly out of focus
until one or more rings are visible
around the central disc. If the collimation
was performed correctly, the central
star disk and rings will be concentric
circles, with a dark spot dead center
within the out-of-focus star disk (this is
the shadow of the secondary mirror), as
shown in Fig. 16C. (An improperly
aligned telescope will reveal elongated
circles (Fig. 16A), with an off-center
dark shadow.)
• As you make adjustments to the primary
mirror tilt screws (3, Fig. 12), you will
notice that the out-of-focus star disk
image will move across the eyepiece
field. Choose one of the 3 primary mirror
tilt screws and slightly move the shadow
to the center of the disk. Then slightly
move the telescope using the flexible
cable controls to center the star disk
image in the center of the eyepiece.
• If any further adjustments are necessary,
repeat this process as many times as
needed until the out-of-focus star disk
appears as in Fig. 16C, when the star
disk image is in the center of the
eyepiece field.
• If the out-of-focus star disk appears
elongated (Fig. 16A), you will need to
adjust the primary mirror Phillips-head
tilt screws of the primary mirror cell
(3, Fig. 12)
• With the star testing of the collimation
complete, tighten the 3 hex-head
primary mirror locking screws
(2, Fig. 12)
• To adjust the primary mirror tilt screws
(3, Fig. 12), first unscrew several turns
the 3 hex-head primary mirror cell
locking screws (2, Fig. 12), to allow free
turning movement of the tilt knobs.
D. STAR TESTING THE COLLIMATION
With the collimation performed, you will
want to test the accuracy of the alignment
on a star. Use the 25mm eyepiece and point
the telescope at a moderately bright
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Meade114EQASTR 3/28/07 9:33 AM Page 21
OPTIONAL ACCESSORIES
Additional Eyepieces (1.25" barrel
diameter): For higher or lower
19
magnifications with the telescopes that
accommodate 1.25" eyepieces, Meade Series
4000 Super Plössl eyepieces, available in a
wide variety of sizes, provide a high level of
image resolution and color correction at an
economical price. Contact your Meade Dealer
or see the Meade catalog for more
information. Visit us on the web at
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Meade114EQASTR 3/28/07 9:33 AM Page 22
which cannot be disclaimed are hereby
limited to a term of one year from the date
of original retail purchase.
MEADE CONSUMER SOLUTIONS
Meade, freight-prepaid, with proof of
purchase. This warranty applies to the
original purchaser only and is non-
transferable. Meade products purchased
outside North America are not included in
this warranty, but are covered under
separate warranties issued by Meade
international distributors.
If you have a question concerning your
20
telescope, call Meade Instruments
Consumer Solutions Department at
(800) 626-3233. Consumer Solutions
Department hours are 8:00AM to 5:00PM,
Pacific Time, Monday through Friday. Write
or call the Meade Consumer Solutions
Department first, before returning the
telescope to the factory, giving full
particulars as to the nature of the problem,
as well as your name, address, and daytime
telephone number. The great majority of
servicing issues can be resolved by
telephone, avoiding return of the telescope
to the factory.
This warranty gives you specific rights. You
may have other rights which vary from state
to state.
Meade reserves the right to change product
specifications or to discontinue products
without notice.
RGA Number Required: Prior to the return
of any product or part, a Return Goods
This warranty supersedes all previous
Meade product warranties.
Authorization (RGA) number
must
be
obtained from Meade by writing, or by calling
(800) 626-3233. Each returned part or
product must include a written statement
detailing the nature of the claimed defect, as
well as the owner’s name, address, and
phone number.
MEADE LIMITED WARRANTY
Every Telestar telescope, spotting scope, and
telescope accessory is warranted by Meade
Instruments Corporation (“Meade”) to be
free of defects in materials and
workmanship for a period of ONE YEAR from
the date of original purchase in the U.S.A.
Meade will repair or replace a product, or
part thereof, found by Meade to be defective,
provided the defective part is returned to
This warranty is not valid in cases where the
product has been abused or mishandled,
where unauthorized repairs have been
attempted or performed, or where
depreciation of the product is due to normal
wear-and-tear. Meade specifically disclaims
special, indirect, or consequential damages
or lost profit which may result from a breach
of this warranty. Any implied warranties
©2007 MEADE INSTRUMENTS CORPORATION
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Meade114EQASTR 3/28/07 9:33 AM Page 23
OBSERVATION LOG
OBSERVER:
OBJECT NAME:
DATE & TIME OBSERVED:
CONSTELLATION:
EYEPIECE SIZE:
SEEING CONDITIONS:
NOTES:
EXCELLENT
GOOD
POOR
DRAWING OF IMAGE
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Meade114EQASTR 3/28/07 9:33 AM Page 24
OBSERVATION LOG
OBSERVER:
OBJECT NAME:
DATE & TIME OBSERVED:
CONSTELLATION:
EYEPIECE SIZE:
SEEING CONDITIONS:
NOTES:
EXCELLENT
GOOD
POOR
DRAWING OF IMAGE
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Meade114EQASTR 3/28/07 9:33 AM Page 25
OBSERVATION LOG
OBSERVER:
OBJECT NAME:
DATE & TIME OBSERVED:
CONSTELLATION:
EYEPIECE SIZE:
SEEING CONDITIONS:
NOTES:
EXCELLENT
GOOD
POOR
DRAWING OF IMAGE
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Meade114EQASTR 3/28/07 9:33 AM Page 26
OBSERVATION LOG
OBSERVER:
OBJECT NAME:
DATE & TIME OBSERVED:
CONSTELLATION:
EYEPIECE SIZE:
SEEING CONDITIONS:
NOTES:
EXCELLENT
GOOD
POOR
DRAWING OF IMAGE
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Meade114EQASTR 3/28/07 9:33 AM Page 27
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Meade114EQASTR 3/28/07 9:33 AM Page 28
Meade Instruments Corporation
6001 Oak Canyon, Irvine, California
1-800
92618
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