Bushnell 78-8830, 78-8845 Руководство пользователя

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Руководство пользователя

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Instruction
Manual
78-8830 76mm RefLEctor
78-8845 114mm Reflector
Lit.#: 91-0265/08-01
2.
Never Look Directly At The Sun
With Your Telescope
Permanent Damage To Your Eyes
May Occur
WHERE DO I START?
3.
Your Bushnell telescope can bring the wonders of the universe to your eye.
While this manual is intended to assist you in the set-up and basic use of this
instrument, it does not cover everything you might like to know about
astronomy. Although Northstar will give a respectable tour of the night sky,
it is recommended you get a very simple star chart and a flashlight with a red
bulb or red cellophane over the end. For objects other than stars and
constellations, a basic guide to astronomy is a must. Some recommended
sources appear on our website at www.bushnell.com. Also on our website
will be current events in the sky for suggested viewing. But, some of the
standbys that you can see are:
The Moon—a wonderful view of our lunar neighbor can be enjoyed with any
magnification. Try viewing at different phases of the moon. Lunar highlands, lunar
maria (lowlands called "seas" for their dark coloration), craters, ridges and
mountains will astound you.
Saturn—even at the lowest power you should be able to see Saturn’s rings and
moons. This is one of the most satisfying objects in the sky to see simply because
it looks like it does in pictures. Imagine seeing what you’ve seen in textbooks or
NASA images from your backyard!
Jupiter—the largest planet in our solar system is spectacular. Most noted features
are its dark stripes or bands both above and below its equator. These are the north
and south equatorial belts. Also interesting are Jupiters four major moons. Pay
close attention to their positions from night to night. They appear to be lined up on
either side of Jupiter.
Mars—The Great Red Planet appears as a reddish-orange disk. Look at different
times of the year and try to catch a glimpse of the white polar ice caps.
Venus—just like the moon, Venus changes phases from month to month. At times
Venus appears brilliantly in the night sky, just as if you were looking at a distant
crescent moon.
Nebulae—The Great Orion Nebula is a very well known night sky object. This and
many others are brought to you by this telescope.
Star Clusters—View millions of stars densely packed in a cluster that resembles
a ball.
Galaxies—One of the greatest and most interesting galaxies is our neighbor the
Andromeda Galaxy. Enjoy this and many others.
4.
78-8830 76mm and 78-8845 114mm Reflectors
Parts Diagrams
1. Red Dot Finderscope
2. 1.25" Format Eyepiece
3. Rack and Pinion Focusing Mechanism
4. Accessory Tray Brace
5. Quick-Release Tripod Leg Lever
6. Quick-Release Accessory Tray
7. Remote Computer Controller
8. Main Telescope Tube
9. Quick-Release Adjustable Aluminum Tripod
Telescope Parts Diagram
1.
2.
3.
4.
5.
6.
7.
8.
9.
• Adjustable Aluminum Tripod A s s e m b l y
(Pre-assembled to Northstar Computerized Star Locator Base)
• Quick Release Accessory Tray
Northstar Telescope with finger attachment nuts
• Red Dot Finderscope
• 20mm 1.25" Diameter Eyepiece
• 4mm 1.25" Diameter Eyepiece
• Barlow Lens
78-8830 76mm and 78-8845 114mm Reflectors
PARTS LIST
QUICK ASSEMBLY DIAGRAM
5.
1.
2.
DETAILED ASSEMBLY
No tools are required for assembly of your telescope.
Remove all components from the carton and identify all components. It is a good idea to lay all the parts out in front of
you before assembly. Since your telescope is a precision optical system the parts require careful handling—particularly
the onboard computer, telescope, eyepieces, and various accessory lenses.
SET UP TRIPOD AND A C C E S S O RY T R AY
1. Stand Northstar Computerized Star Locator Assembly and attached tripod legs in
the upright position. Spread tripod legs to a comfortable distance.
2. Fold down the accessory tray braces and place the Quick Release Accessory
Tray on top of braces. (See Quick Assembly Diagram)
3. Turn accessory tray until it snaps into place.
4. Adjust tripod leg height to suit by opening tripod leg lever and extending tripod legs
to desired height. Clamp Tripod Leg lever closed when complete.
AT TACH TELESCOPE TUBE
1. Locate Main Telescope Tube.
2. Remove Telescope Tube Thumb Nuts from side of Telescope Tube.
(See Quick Assembly Diagram)
3. Position Main Telescope Tube Attachment Bolts through Telescope Tube Bracket at the top of the Northstar
Computerized Star Locator A s s e m b l y. Make sure the telescope is pointing in the correct direction. (Logo on
telescope tube should be right-side up.)
4. Reattach Telescope Tube Thumb Nuts to Main Telescope Tube Attachment Bolts once Main Telescope Tube and
Northstar Computerized Star Locator Assembly are assembled together.
AT TACH FINAL TELESCOPE A C C E S S O R I E S
1. Locate Red Dot Finderscope.
For Reflector Te l e s c o p e s : Remove Finderscope attachment nuts from Main Telescope Tube. Place Finderscope
Assembly over Finderscope Attachment Bolts and reattach Finderscope thumb nuts to Finderscope Mount Bolts.
N O T E : The large end of the finderscope should face the open end of telescope tube.
2. Attach Low Power Eyepiece.
For Reflector Telescope Models: Insert lowest power eyepiece in the focusing mechanism by backing out
eyepiece set screw and inserting eyepiece fully.
3. Tighten all set screws to secure accessories.
4. Remove Objective Dust Cover exposing entire diameter of open end of telescope.
6.
SELECTING AN EYEPIECE
You should always start viewing with the lowest power eyepiece, which in this case is the 20 mm lens. Note: the base
power of each eyepiece is determined by the focal length of the telescope objective lens. A formula can be used to
determine the power of each eyepiece: telescope OBJECTIVE lens focal length divided by EYEPIECE focal length =
M A G N I F I C ATION (e.g. Using the 20 mm lens, a sample calculation could look like this: 750 mm / 20 = 38x or 38
p o w e r. Telescope models will vary in focal length.)
Included with this telescope is a Barlow lens. Barlow lenses are used to double or triple the power of your telescope.
Place your Barlow between the focusing tube and the eyepiece. Using the example above, your 3x Barlow lens would
give you a total power of 114x or 114 power. (38 x 3 = 114x or 114 power). The magnification calculation would look like
this: 750 mm /20mm = 38 power. 38 power x 3=114 power.
M
ALIGNING FINDERSCOPE
Look through Main Telescope Tube and establish a well-defined target. (see Focusing Telescope section)
Remove plastic insulator from between Red Dot Finderscope battery and battery clip.
Turn Red Dot Finderscope on.
Looking through Red Dot Finderscope, turn adjustment wheels until the red dot is precisely centered on the same object
already centered in Main Telescope Tu b e ’ s field of view.
N o w, objects located first with the Red Dot Finderscope will be centered in the field of view of the main telescope.
M
FOCUSING TELESCOPE
1. After selecting the desired eyepiece, aim main telescope tube at a land-based target at least 200 yards away
(e.g. a telephone pole or building).
2. Fully extend Focusing Tube by turning Rack and Pinion Focusing Mechanism.
3. While looking through selected eyepiece (in this case the 20 mm), slowly retract Focusing Tube by turning Rack
and Pinion Focusing Mechanism until object comes into focus.
DETAILED ASSEMBLY (CONTINUED)
7.
M
ATTACH REMOTE COMPUTER CONTROLLER AND BATTERY
1. Locate Remote Computer Controller and coil cord.
2. Locate Battery Door on Northstar Computerized Star Locator Base.
3. Remove Battery Door and insert one 9V battery.
4. Replace Battery Door.
5. Attach Remote Computer Controller with coil cord to Northstar Computerized Star Locator Base.
Never Look Directly At The Sun
With Your Telescope
Permanent Damage To Your Eyes
May Occur
M
ENJOYING YOUR NEW TELESCOPE
8.
1. First determine your targeted object. Any bright object in the night sky is a good starting point.
One of the favorite starting points in astronomy is the moon. This is an object sure to please
any budding astronomer or experienced veteran. When you have developed proficiency at
this level, other objects become good targets. Saturn, Mars, Jupiter, and Venus are good
second steps to take.
2. The first thing you need to do after assembling the telescope as planned is center the desired
object in the finderscope’s cross hairs. Provided you did a reasonable job aligning the
finderscope, a quick look through the main telescope tube at low power should reveal the
same image. With the lowest power eyepiece (the one with the largest number printed on it)
you should be able to focus the same image that you saw through the finderscope. Avoid the
temptation to move directly to the highest power. The low power eyepiece will give you a
wider field of view, and brighter image—thus making it very easy to find your target object. At
this point with a focused image in both scopes, you’ve passed the first obstacle. If you don’t
see an image after attempting to focus it in, you might consider aligning your finderscope
again. Once you pass this step, you’ll will enjoy the time spent ensuring a good alignment.
Every object you center in the finderscope will be easily found in the main telescope tube,
which is important for continuing your exploration of the night sky.
3. The low power eyepieces are perfect for viewing the full moon, planets, star clusters, nebulae,
and even constellations. These should build your foundation. However, for more detail, try
bumping up in magnification to higher power eyepieces on some of these objects. During
calm and crisp nights, the light/dark separation line on the moon (called the "Terminator") is
marvelous at high power. You can see mountains, ridges and craters jump out at you due to
the highlights. Similarly, you can move up to higher magnifications on the planets and nebulae.
Star clusters and individual stars are best viewed through the low power no matter what.
4. The recurring astronomical theater we call the night sky is an ever-changing billboard. In other
words, the same movie does not play all the time. Rather, the positions of the stars change
not only hourly as they seem to rise and set, but also throughout the year. As the earth orbits
the sun our perspective on the stars changes on a yearly cycle about that orbit. The reason
the sky seems to move daily just as the sun and the moon "move" across our sky is that the
earth is rotating about its axis. As a result you may notice that after a few minutes or a few
seconds depending on what power you are viewing at, the objects in your telescope will move.
At higher magnifications especially, you will notice that the moon or Jupiter will "race" right out
of the field of view. To compensate, just move your telescope to "track" it in the necessary path.
M
HELPFUL HINTS
9.
1 . Your telescope is a very sensitive instrument. For best results and fewer vibrations
set your telescope up on a level location on the ground rather than your concrete
driveway or your wooden deck. This will provide a more stable foundation for
viewing, especially if you’ve drawn a crowd with your new telescope.
2. If possible view from a location that has relatively few lights. This will allow you to
see much fainter objects. You’d be surprised how much more you’ll see from your
local lake or park when compared to a backyard in the city.
3 . Using your telescope out a window is NEVER recommended.
4. View objects that are high in the sky if possible. Waiting until the object rises
well above the horizon will provide a brighter and crisper image. Objects on
the horizon are viewed through several layers of earth’s atmosphere. Ever
wonder why the moon appears orange as it sets on the horizon? It’s because
you are looking through a considerable more amount of atmosphere than you
would directly overhead. (Note: If objects high in the sky are distorted or
wavy, you are probably viewing on a very humid night.) During nights of
unstable atmosphere, viewing through a telescope can be frustrating if not
impossible. Astronomers refer to crisp, clear nights as nights of "good seeing."
BUTTON FUNCTIONS
1. On/Off Button (On Northstar Base)
2. Back Button
3. Enter Button
4. Scroll Up Button
5. Scroll Down Button
6. LCD Display
7. “GO” Button
8. Motorized Movement Buttons (4)
9. Battery Door (On Northstar Base)
NORTHSTAR COMPUTER
INTERFACE DIAGRAM
The Liquid Crystal Display (LCD) is a two-line, sixteen character display. The LCD is illuminated for use during nighttime
viewing just like the buttons.
A L L B U T T ONS ARE ILLUMINATED FOR NIGHTTIME USE.
On/Off Button: The On/Off Button will turn the Northstar Computerized Star Locator on and off. This button flashes
or strobes on and off during normal use. To turn the unit off, simply depress and hold the On/Off button for three
seconds and release. (Note: The Northstar Computerized Star Locator will automatically turn itself off after 10 minutes
of inactivity. )
Back Button: This button functions to navigate to the previous level within the operating framework and/or back to the
previous level of input.
Enter Button: This button functions to select certain menu choices. By pressing the E N T E R button Northstar will
advance to the selected level. When an object name or number is listed on the screen, the ENTER button can also be
pressed to display a scrolling text description of the object.
Scroll Up Button: This button functions to scroll u p through various menus within Northstar. Anytime you encounter
a blinking text/number option, the scroll button will display the various choices within that menu. (Note: To select an
option that you have scrolled to, just press the E N T E R b u t t o n . )
Scroll Down Button: This button functions to scroll d o w n through various menus within Northstar. Anytime you
encounter a blinking text/number option, the scroll button will display the various choices within that menu.
(Note: To select an option that you have scrolled to, just press the E N T E R b u t t o n . )
“GO” Button: The GO button will automatically center any object displayed on the LCD display. By pushing the “GO”
button, the telescope will automatically find and follow the selected object until another object is selected and the “GO”
button is pushed again.
Motorized Movement Buttons: These four multi-directional buttons will allow the user to override the tracking system
and move the telescope utilizing the motors manually to another desired location. The longer these buttons are
depressed, the faster the Northstar will move until it reaches its maximum speed.
10.
LCD DISPLAY
2.
3.
4.
5.
6.
7.
8.
M
MODE OVERVIEW OF PRODUCT
Explore: The Explore Mode of Northstar provides the ability to explore various astronomical objects
categorized by object type. These objects would fall under one or more of the following types of objects:
Deep Sky, Planets, Constellations, and Stars. Each of these subheadings would also have subcategories
of objects beneath their menu structure. (See Menu Tree for full list of menu functions and options.)
Sky To u r : The Sky Tour Mode of Northstar provides the ability to take a quick tour of the best and brightest
objects for any given month of the year. If the date has been input into the system, the Sky Tour Mode will
automatically default to that month. Objects can be chosen by using the scroll u p or d o w n arrows and pressing
E N T E R . To find out more information about any given object press the ENTER button while that object is
displayed to see the scrolling text message.
Te l e s c o p e : The Telescope Mode of Northstar provides real-time data on where the telescope is pointing.
Astronomical Coordinates for Right Ascension (RA) and Declination (DEC) as well as Altitude (ALT) and A z i m u t h
(AZ) are displayed simultaneously. In addition, in the lower right-hand corner will be the abbreviation for the
current constellation that the telescope is pointed at.
I d e n t i f y : The Identify Mode of Northstar provides the ability to identify any object within your telescope field of
v i e w. Subcategories for different classes of identifiable objects are included as well as an Identify Any option.
Align Earth: The Align Earth Mode of Northstar provides the ability to easily align your telescope utilizing
common information non-astronomers would readily know. By entering simple information such as time, date,
c i t y, etc. a first time telescope user can explore the immense Northstar database of astronomical objects
within minutes.
Align Star: The Align Star Mode of Northstar provides the ability to align your telescope utilizing some
astronomical knowledge. By knowing where two stars are located in the sky, a novice user can circumvent the
c i t y, date, and time input and quickly start utilizing the Northstar database to locate amazing astronomical objects.
Align Object: The Align Object Mode of Northstar provides the ability to refine your telescope alignment during
the middle of your observing session. This might come in very handy if the family dog has just bumped the
telescope out of alignment. By using this mode you can center the telescope on any known object and select
align object to quickly recalibrate the Northstar alignment allowing continued enjoyment for the duration
of the evening.
11.
12.
M
ALIGNING NORTHSTAR FOR THE FIRST TIME
(NOTE: Make certain that the telescope is set up on a level surface.)
S T E P 1: POINT NORTH
Point the telescope in the direction of North.
NOTE: THE USER SHOULD JUSTAT T E M P TTO GETTHE TELESCOPE POINTED RELAT I V E LYCLOSE TO
N O R TH. THE A L I G N M E N T W I L L BE REFINED AS WE PROGRESS. HOWEVER, IF YOU CAN FIND T H E
BIG DIPPER AND USE THE "POINTER STARS", FOLLOW THE ARROW ON THE DIAGRAM TO THE NORT H
S TAR. THE NORTH STAR LIES DIRECTLYABOVE DUE NORT H !
When you turn the telescope on, a scrolling message will appear:
Following this message, the telescope will execute a diagnostic check and level the telescope tube in relation to
the telescope mount.
Then the default menu will appear:
This mode assumes that even if the telescope user is a first time user and does not know anything about
astronomy that they can be successful aligning the telescope in a few simple steps.
The ALIGN EARTH option is flashing.
Press ENTER to choose ALIGN EARTH option.
NOTE: A N Y FLASHING ITEM ON THE DISPLAY IS AMENU CHOICE. OTHER CHOICES ARE AVA I L A B L E
B YUSING THE SCROLLU P OR SCROLL DOWN BUTTONS.
13.
M
ALIGNING NORTHSTAR FOR THE FIRST TIME (Continued)
S T E P 2: SET THE TIME
By using the SCROLLU Pand SCROLLDOWN buttons and the ENTER button, the time can easily be set as well as the
time zone. Each flashing option will need to be changed to read the appropriate number. Once the appropriate number
is displayed, accept the number by pressing ENTER. Then set the next flashing option until the time and time zone
are set.
S T E P 3: SET THE DAT E
Again by using the SCROLLU P and SCROLLDOWN buttons and the ENTER button, the date can easily be set. Each
flashing option will need to be changed to read the appropriate number or month. Once the appropriate number is
displayed, accept the number by pressing ENTER. Then set the next flashing option until the day, month and year
are set.
S T E P 4: SET THE LOCAT I O N
The next screen will display:
C I T Y will be flashing. By pressing the ENTER button, the display will change to:
The country will be flashing.
Again by using the SCROLLU P and SCROLL DOWN buttons and the ENTER button, the COUNTRY can be chosen.
When the appropriate Country is found and the ENTER button is pushed, choose the city that you are closest to by
pressing ENTER when it is displayed.
NOTE: CHOOSE THE CITY C L O S E S TTO YOUR VIEWING LOCATION. THIS IS NOTA C R I T I C A LS T E PAND T H E
A L I G N M E N T W I L LBE REFINED A U TO M AT I C A L LYAS WE PROGRESS.
After four simple criteria that any consumer should know, the telescope now knows where over 20,000 astronomical
objects are in the night sky to a relative precision. With just two more steps, you will zero in on pinpoint accuracy.
Now the telescope will lead you through a simple two star alignment process. YOU DO NOTNEED TO KNOW WHERE
A N Y S TARS ARE. You just simply follow the directions.
Ascrolling message indicates to CENTER STAR 1 THEN PRESS ENTER
Then the display will read:
Push the “GO” button and the telescope will automatically move to the general vicinity of the first guide star--in this
case MIZAR
The guide stars will be the brightest stars found in that area of the sky. Northstar will automatically “zero out” the guide
star and the display will read:
Note as you move from greater than 10 degrees away from an object to under ten degrees, the display moves into t e n t h s
of degrees with the arrows acting as decimal points (Example below the object).
After getting the star zeroed in, you need to do as the screen told you—CENTER STAR 1. In other words, the star might
appear in the lower left corner of your telescope’s eyepiece.
By looking through the eyepiece, center the star in the field of view by using the Motorized Movement Buttons or move
the telescope by hand and press ENTER.
14.
M
ALIGNING NORTHSTAR FOR THE FIRST TIME (Continued)
The distance the object is from the center is related to how far outside of a city you might be located or how
accurately you aligned with north.
Repeat this process for STAR 2 and press ENTER.
After this step is completed, you will see a display that reads:
(Note: The more stars that appear on the second line of the display the better, up to 5)
After the two star alignment is complete, your Northstar now knows with pinpoint accuracy where
all 20,000+ objects are!!
After EARTH ALIGN, the display will then read:
Select EXPLORE by pressing ENTER. SCROLL UP and DOWN to see what flashing menu choices you
have. Choose PLANET. These are the most interesting. Even if you are a first time telescope user,
PLANET objects can be very exciting.
Press ENTER when the display reads:
This will take you into a list of named PLANET objects. By using the SCROLL U Por SCROLLDOWN buttons,
you can explore several items in the object list.
Press ENTER to choose the PLANET you wish to view. The display will then be:
NOTE: IF AN OBJECT IS BELOW THE HORIZON, THE DISPLAY W I L L P E R I O D I C A L LY D I S P L AY T H E
WORD "HORIZON".
S C R O L L U P or SCROLL DOWN to see other PLANETS in the list. Notice the display shows you directions to
each object. But what if you are a first time user wanting to find out more about the object? Wouldn’t it be nice
to know what the object is before moving the telescope?
PRESS ENTER when:
any other PLANETitem is displayed. You will see a scrolling message telling you the coordinates for the object,
how bright it is, how big it is, what its proper name is, what constellation it is in, and a brief description of what
the object is. For JUPITER it reads:
15.
M
USING NORTHSTAR FOR THE FIRST TIME
M
USING NORTHSTAR FOR THE FIRST TIME (Continued)
Now imagine that you are a parent trying to impress your children (or vice versa). Ten minutes into your first
observing session you are already learning astronomical objects.
This is a great educational tool !!!!
To find the object, just press the “GO” button and that object will be right in the telescope’s eyepiece!
By pressing the BACK button, you move back to the previous level each time the button is pressed. Press the
button three times and you are back at the main level menu. The display will read:
S C R O L L U P or SCROLL DOWN to select
Press ENTER.
This mode will take you through the best and brightest objects for each month. If you have done the A L I G N
E A R TH alignment and entered the date, it will automatically take you to the current month. Don’t know what
some of these obscure objects and abbreviations mean? Just press the ENTER key for more information.
Press the BACK button until you get back to the main menu:
S C R O L LU P or SCROLL DOWN until the display reads:
PRESS ENTER
This mode will default to the level
By selecting this option with the ENTER key, it will IDENTIFY the object that you are currently viewing OR the
closest object to where your telescope is currently pointed. You also have the options to choose other types of
I D E N T I F Y menus. These will IDENTIFY the closest CLUSTERS, NEBULAS, etc. to your current
telescope position.
To select the final mode press ENTER at the display:
The display reads something like:
The TELESCOPE mode gives you dynamic real-time information on your telescope’s current position in terms
of astronomical coordinates. Play around with this mode by moving the telescope around. Notice the three
letter abbreviation in the lower right portion of the display. This dynamically displays the current
C O N S T E L L ATION that the telescope is pointing at. These names are abbreviated in this mode. Definitions
for the abbreviations will be in the catalog index.
16.
The following appendix information is more thorough information than that listed in
the main instruction manual. For sake of space, the complete 20,000 object
catalog is not listed. However, we have included the entire star list and the entire
Messier object lists for your information. In addition, the constellation
abbreviations are defined that are found in the Northstar system.
17.
Catalog Index
Andromeda (And)
Antila (Ant)
Apus (Aps)
Aquarius (Aqr)
Aquila (Aql)
Ara (Ara)
Aries (Ari)
Auriga (Aur)
Bootes (Boo)
Caelum (Cae)
Camelopardis (Cam)
Cancer (Cnc)
Canes Venatici (CVn)
Canis Major (CMa)
Canis Minor (CMi)
Capricornus (Cap)
Carina (Car)
Cassiopeia (Cas)
Centaurus (Cen)
Cepheus (Cep)
Cetus (Cet)
Chameleon (Cha)
Circinus (Cir)
Columbia (Col)
Coma Berenices (Com)
Corona Australis (CrA)
Corona Borealis (CrB)
Corvus (Crv)
Crater (Crt)
Crux (Cru)
Cygnus (Cyg)
Delphinus (Del)
Dorado (Dor)
Draco (Dra)
Equuleus (Equ)
Eridanus (Eri)
Fornax (For)
Gemini (Gem)
Grus (Gru)
Hercules (Her)
Horologium (Hor)
Hydra (Hya)
Hydrus (Hyi)
Indus (Ind)
Lacerta (Lac)
Leo (Leo)
Leo Minor (LMi)
Lepus (Lep)
Libra (Lib)
Lupus (Lup)
Lynx (Lyn)
Lyra (Lyr)
Mensa (Men)
Microscopium (Mic)
Monoceros (Mon)
Musca (Mus)
Norma (Nor)
Octans (Oct)
Ophiuchus (Oph)
Orion (Ori)
Pavo (Pav)
Pegasus (Peg)
Perseus (Per)
Phoenix (Phe)
Pictor (Pic)
Pisces (Psc)
Piscis Austrinus (PsA)
Puppis (Pup)
Pyxis (Pyx)
Reticulum (Ret)
Sagitta (Sge)
Sagittarius (Sgr)
Scorpius (Sco)
Sculptor (Scl)
Scutum (Sct)
Serpens (Ser)
Sextans (Sex)
Taurus (Tau)
Telescopium (Tel)
Triangulum (Tri)
Triangulum Australe (TrA)
Tucana (Tuc)
Ursa Major (UMa)
Ursa Minor (UMi)
Vela (Vel)
Virgo (Vir)
Volcans (Vol)
Vulpecula (Vul)
CONSTELLATION ABBREVIATIONS
Catalog Index
18.
NAME - NAME
RA - RIGHT ASCENSION (hours min.min)
DEC - DECLINATION (degrees)
MAG - MAGNITUDE
SIZE - SIZE
CON - CONSTELLATION
Messier Catalog
Catalog Index
19.
MESSIER CATALOG NAME RA DEC MAG SIZE CON DESCRIPTION
M001 Crab nebula supernova remnant NGC 1952 05 34.5 +22.0 8.4 6' Tau nebula
M002 NGC 7089 21 33.5 -0.8 6 7' Aqr globular cluster highly resolved
M003 NGC 5272 13 42.2 +28.4 6 18' Cvn globular cluster highly resolved
M004 NGC 6121 16 23.6 -26.5 5.9 26' Sco globular cluster highly resolved
M005 NGC 5904 15 18.6 +02.1 6.2 13' Ser globular cluster highly resolved
M006 butterfly NGC 6405 17 40.1 -32.2 4.6 25' Sco open cluster rich
M007 NGC 6475 17 53.9 -34.8 5 Sco open cluster bright scattered
M008 Lagoon NGC 6523 18 03.8 -24.4 5 80' Sgr nebula with dust and cluster
M009 NGC 6333 17 19.2 -18.5 8 9' Oph globular cluster mottled
M010 NGC 6254 16 57.1 -4.1 7 8' Oph globular cluster highly resolved
M011 wild duck NGC 6705 18 51.1 -6.3 6 12' Sct open cluster dense
M012 NGC 6218 16 47.2 -2 8 10' Oph globular cluster highly resolved
M013 NGC 6205 16 41.7 +36.5 5.7 23' Her globular cluster highly resolved
M014 NGC 6402 17 37.6 -3.3 9 6' Oph globular cluster
M015 NGC 7078 21 30.0 +12.2 6.5 10' Peg globular cluster highly resolved
M016 Eagle NGC 6611 18 18.8 -13.8 6 7' Ser nebula with dust and cluster
M017 Swan NGC 6618 18 20.8 -16.2 6 45' Sgr nebula
M018 NGC 6613 18 19.9 -17.1 8 7' Sgr open cluster bright scattered
M019 NGC 6273 17 02.6 -26.3 7 5' Oph globular cluster
M020 Trifid NGC 6514 18 02.6 -23 6.3 25' Sgr nebula with dust
M021 NGC 6531 18 04.6 -22.5 7 10' Sgr open cluster rich
M022 NGC 6656 18 36.4 -23.9 6 18' Sgr globular cluster highly resolved
M023 NGC 6494 17 56.8 -19 7 30' Sgr open cluster dense
M024 small star cloud 18 15.9 -18.5 0 1.5° Sgr open cluster bright scattered
M025 IC 4725 18 31.6 -19.3 6 20' Sgr scattered group of stars
M026 NGC 6694 18 45.2 -9.4 9.5 9' Sct open cluster rich
M027 Dumbell NGC 6853 19 59.6 +22.7 8 8' Vul planetary nebula irregular
M028 NGC 6626 18 24.5 -24.9 8 6' Sgr globular cluster highly resolved
M029 NGC 6913 20 23.9 +38.5 7 7' Cyg open cluster bright scattered
M030 NGC 7099 21 40.4 -23.2 8 6' Cap globular cluster highly resolved
M031 Great Andromeda Galaxy NGC 224 00 42.7 +41.3 3.4 And very elongated galaxy dusty with bright core
M032 NGC 221 00 42.7 +40.9 8.2 8' And round galaxy with bright core
M033 Pinwheel NGC 598 01 33.9 +30.7 5.7 60' Tri spiral galaxy structure with bright knots
M034 NGC 1039 02 42.0 +42.8 5.2 30' Per open cluster rich
M035 NGC 2168 06 08.9 +24.3 5.1 30' Gem open cluster rich
M036 NGC 1960 05 36.1 +34.1 6 12' Aur open cluster rich
M037 NGC 2099 05 52.4 +32.6 5.6 24' Aur open cluster dense
M038 NGC 1912 05 28.7 +35.8 6.4 21' Aur open cluster rich
M039 NGC 7092 21 32.2 +48.4 5 30' Cyg open cluster bright scattered
M040 Winnecke 4 12 19.8 +58.3 9 50" UMa double star
M041 NGC 2287 06 47.0 -20.7 4.5 38' Cma open cluster dense
M042 Great Orion nebula NGC 1976 05 35.4 -5.5 4 Ori nebula
M043 NGC 1982 05 35.6 -5.3 9 20' Ori nebula bright with dust
M044 Behive NGC 2632 08 40.1 +20.0 3.1 1.5° Cnc open cluster bright scattered
M045 Pleiades Pleiades 03 47.0 +24.1 1.5 1.5° Tau scattered group of stars
M046 NGC 2437 07 41.8 -14.8 6.1 27' Pup open cluster dense
M047 NGC 2422 07 36.6 -14.5 4.4 30' Pup open cluster dense
M048 NGC 2548 08 13.8 -5.8 5.8 40' Hya open cluster rich
M049 NGC 4472 12 29.8 +08.0 8.4 8' Vir round galaxy with bright core
M050 NGC 2323 07 03.2 -8.3 6 20' Mon open cluster rich
M051 Whirlpool NGC 5194 13 29.9 +47.2 8.1 11' Cvn spiral galaxy structure attached companion
M052 NGC 7654 23 24.2 +61.6 7 12' Cas open cluster dense
M053 NGC 5024 13 12.9 +18.2 8 10' Com globular cluster highly resolved
M054 NGC 6715 18 55.1 -30.5 9 6' Sgr globular cluster mottled
M055 NGC 6809 19 40.0 -31 7 15' Sgr globular cluster highly resolved
M056 NGC 6779 19 16.6 +30.2 8 5' Lyr globular cluster highly resolved
M057 Ring NGC 6720 18 53.6 +33.0 9.7 80" Lyr planetary nebula ring with central star
M058 NGC 4579 12 37.7 +11.8 9.8 5' Vir round galaxy with bright core
Star Catalog
20.
M059 NGC 4621 12 42.0 +11.7 9.8 2' Vir elongated galaxy with bright core
M060 NGC 4649 12 43.7 +11.6 8.8 3.5' Vir round galaxy with bright core
M061 NGC 4303 12 21.9 +04.5 9.7 5' Vir spiral galaxy structure
M062 NGC 6266 17 01.2 -30.1 6.5 9' Oph globular cluster
M063 Sunflower NGC 5055 13 15.8 +42.0 8.6 9' Cvn elongated galaxy with bright core
M064 Black eye NGC 4826 12 56.7 +21.7 8.6 7.5' Com elongated galaxy dusty
M065 Leo triplet NGC 3623 11 18.9 +13.1 9.3 10' Leo very elongated galaxy with bright core
M066 Leo triplet NGC 3627 11 20.2 +13.0 9 9' Leo spiral galaxy structure
M067 NGC 2682 08 50.4 +11.8 7 30' Cnc open cluster dense
M068 NGC 4590 12 39.5 -26.8 8 9' Hya globular cluster highly resolved
M069 NGC 6637 18 31.4 -32.4 7.5 4' Sgr globular cluster
M070 NGC 6681 18 43.2 -32.3 8 4' Sgr globular cluster
M071 NGC 6838 19 53.8 +18.8 9 6' Sge globular cluster highly resolved
M072 NGC 6981 20 53.5 -12.5 8.6 3' Aqr globular cluster
M073 NGC 6994 20 59.0 -12.6 8.9 ? Aqr asterism
M074 NGC 628 01 36.7 +15.8 9.2 10' Psc spiral galaxy structure
M075 NGC 6864 20 06.1 -21.9 8 3' Sgr globular cluster unresolved
M076 little dumbell NGC 650 01 42.4 +51.6 10.1 2' Per planetary nebula irregular
M077 NGC 1068 02 42.7 -0.1 8.8 7' Cet round galaxy with bright core
M078 NGC 2068 05 46.7 +00.1 8 8' Ori reflection nebula bright
M079 NGC 1904 05 24.5 -24.6 8.4 7.5' Lep globular cluster highly resolved
M080 NGC 6093 16 17.0 -23 7.2 9' Sco globular cluster mottled
M081 Bodes nebula NGC 3031 09 55.6 +69.1 6.9 26' Uma spiral galaxy structure
M082 NGC 3034 09 55.8 +69.7 8.4 9' Uma very elongated galaxy with dust and bright knots
M083 NGC 5236 13 37.0 -29.9 8 10' Hya barred spiral galaxy structure
M084 NGC 4374 12 25.1 +12.9 9.3 4' Vir round galaxy with bright core
M085 NGC 4382 12 25.4 +18.2 9.3 5' Com round galaxy with bright core
M086 NGC 4406 12 26.2 +13.0 9.2 7' Vir round galaxy with bright core
M087 NGC 4486 12 30.8 +12.4 8.6 7' Vir round galaxy with bright core
M088 NGC 4501 12 32.0 +14.4 9.5 6' Com very elongated galaxy with bright core
M089 NGC 4552 12 35.7 +12.6 9.8 3' Vir round galaxy with bright core
M090 NGC 4569 12 36.8 +13.2 9.5 9' Vir very elongated galaxy with bright core
M091 NGC 4548 12 35.4 +14.5 10.2 4.5' Com elongated galaxy with bright core
M092 NGC 6341 17 17.1 +43.1 6.5 8' Her globular cluster highly resolved
M093 NGC 2447 07 44.6 -23.9 6.2 20' Pup open cluster dense
M094 NGC 4736 12 50.9 +41.1 8.2 5' Cvn elongated galaxy with bright core
M095 NGC 3351 10 44.0 +11.7 9.7 4' Leo barred spiral galaxy structure
M096 NGC 3368 10 46.8 +11.8 9.3 6' Leo round galaxy with bright core
M097 Owl NGC 3587 11 14.8 +55.0 11 2.5' Uma planetary nebula irregular
M098 NGC 4192 12 13.8 +14.9 10 8.2' Com very elongated galaxy with bright core
M099 NGC 4254 12 18.8 +14.4 10 5' Com spiral galaxy structure
M100 NGC 4321 12 22.9 +15.8 9.4 7' Com round galaxy with bright core
M101 NGC 5457 14 03.2 +54.4 7.8 20' Uma spiral galaxy structure with bright knots
M102 NGC 5866 15 06.5 +55.8 10 3' Dra very elongated galaxy dusty with bright core
M103 NGC 581 01 33.2 +60.7 7.4 6' Cas open cluster rich
M104 sombrero NGC 4594 12 40.0 -11.6 8.2 7' Vir edge on galaxy dusty
M105 NGC 3379 10 47.8 +12.6 9.3 4' Leo round galaxy with bright core
M106 NGC 4258 12 19.0 +47.3 8.3 18' Cvn spiral galaxy structure with bright knots
M107 NGC 6171 16 32.5 -13.1 9 7' Oph globular cluster
M108 NGC 3556 11 11.5 +55.7 10.1 8' Uma very elongated galaxy with dust and bright knots
M109 NGC 3992 11 57.6 +53.4 9.8 8' Uma elongated galaxy with bright core
M110 NGC 205 00 40.4 +41.7 8 17' And elongated galaxy
STAR CATALOG NAME RA DEC MAG SIZE CON DESCRIPTION
ST001 O∑∑254 00 01.2 +60 21 7.6 59" Cas colored double star
ST002 30 30 PSC 00 02.0 -6 4.4 * Psc red variable star
ST003 3053 00 02.6 +66 06 5.9 15" Cas colored double star
ST004 SU SU AND 00 04.6 +43.5 8 * And red variable star
ST005 Ced214 Cederblad 21400 04.7 +67.2 7.8 30' Cep emission nebula
ST006 3062 ADS 61 00 06.3 +58.4 6.4 1.5" Cas double star challenge
ST007 Alpheratz Alpha And 00 08.4 +29 05 2.1 * And star
ST008 2 Struve 2 00 09.3 +79.7 6.6 0.8" Cep double star challenge
ST009 Kappa ß 391 00 09.4 -28 00 6.2 2" Scl double star challenge
ST010 Algenib Gamma PEG 00 13.2 +15.2 2.8 * Peg star
ST011 AD AD Cet 00 14.5 -7.8 4.9 1.5° Cet red variable star
ST012 7 7 CET 00 14.6 -18.9 4.4 * Cet red variable star
ST013 35 Psc 12, UU Psc 00 15.0 +08 49 5.8 12" Psc colored double star
ST014 S S SCL 00 15.4 -32.1 5.5 * Scl variable star
ST015 13 Struve 13 00 16.2 +76.9 7 0.9" Cep double star challenge
ST016 ST ST CAS 00 17.6 +50.3 9 * Cas red variable star
ST017 Groombridge34 G r o o m b r i d g e 34 00 18.1 +44.0 8 39" And double star
ST018 24 00 18.5 +26 08 7.6 5" And double star
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