Meade LX200 R instruction manual Lining Up with the Celestial Pole, Locating Polaris

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Little Dipper

Polaris

Big Dipper

Cassiopeia

Fig. 42: Locating Polaris.

Tip:

You can check if the declina- tion is set at true 90° in step 2c. Look through the eyepiece and rapidly slew the optical tube on the R.A. axis. If all the stars rotate around the center of the field of view, the Declination is set at 90°. If the stars arc out of the field of view, slew the optical tube on the Declination axis until you achieve the centering effect.

Fig. 43: Align tick marks to set the fork arms to 00 H.A. position.

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Lining Up with the Celestial Pole

Objects in the sky appear to revolve around the celestial pole. (Actually, celestial objects are essentially “fixed.” Their apparent motion is caused by the Earth’s rota- tion). During any 24 hour period, stars make one complete revolution about the pole, making concentric circles with the pole at the center. By lining up the telescope’s polar axis with the North Celestial Pole (or for observers located in Earth’s Southern Hemisphere, with the South Celestial Pole), astronomical objects may be followed, or tracked, simply by moving the telescope about one axis, the polar axis. This tracking may be accomplished automatically with the LX200R electric motor drive.

If the telescope is reasonably well aligned with the pole, very little use of the tele- scope’s Declination slow motion control is necessary. Virtually all of the required tele- scope tracking will be in Right Ascension. (If the telescope were perfectly aligned with the pole, no Declination tracking of celestial objects would be required.) For the pur- poses of casual telescopic observations, lining up the telescope’s polar axis to within a degree or two of the pole is more than sufficient: with this level of pointing accura- cy, the telescope’s motor drive will track accurately and keep objects in the telescop- ic field of view for perhaps 20 to 30 minutes.

Begin polar aligning the telescope by locating Polaris. Finding Polaris is simple. Most people recognize the “Big Dipper.” The Big Dipper has two stars that point the way to Polaris (Fig. 42). Once Polaris is found, it is a straightforward procedure to obtain a rough polar alignment.

To line up with Polaris, follow the procedure described below. Refer to the instruction sheet included with your equatorial wedge for information about attaching the wedge to the telescope and also about using the azimuth and latitude controls.

1.Select "Setup: Telescope" from the AutoStar II menus. Press ENTER. Scroll to

"Telescope: Mount" and press ENTER. Scroll to "Scope Mounting: Polar" and press ENTER. The telescope mount is now set to the polar mode.

2.Press MODE until "Select Item: Setup" displays. Press ENTER. "Setup: Align"

displays. Press ENTER. "Align: Easy" displays. Scroll to "Align: One-Star"

and press ENTER. AutoStar II now prompts you to set the telescope in the polar home position.

a.Using the bubble level of the wedge, adjust the tripod legs so that the bubble is level.

b.Set the wedge to your observing latitude.

c.Using the Up and Down Arrow keys, rotate the telescope tube in Declination so that the telescope’s Declination reads 90°. See SETTING CIRCLES, page 55.

d.Loosen the R.A. lock, and rotate the fork arms to the 00 position H. A. : Move the forks arms so that center tick mark on fork arm base (A, Fig. 43) aligns with the tick mark on the base (B, Fig. 43).

e.Press ENTER. The telescope slews to Polaris.

f.Use the azimuth and latitude controls on the wedge to center Polaris in the field of view. Do not use the AutoStar II handbox during this process. When Polaris is centered, press ENTER. The telescope is now polar aligned. See AUTOSTAR II POLAR ALIGNMENT, page 56, for more information.

At this point, your polar alignment is good enough for casual observations. There are times, however, when you will need to have precise polar alignment, such as when making fine astrophotographs.

Once the latitude angle of the wedge has been fixed and locked-in according to the above procedure, it is not necessary to repeat this operation each time the telescope is used, unless you move a considerable distance North or South from your original observing position. (Approximately 70 miles movement in North-South observing position is equivalent to 1° in latitude change.) The wedge may be detached from the field tripod and, as long as the latitude angle setting is not altered and the field tripod is leveled, it will retain the correct latitude setting when replaced on the tripod.

The first time you polar align the telescope, check the calibration of the Declination setting circle (Fig. 39). After performing the polar alignment procedure, center the star Polaris in the telescope field. Remove the knurled central hub of the Declination set-

Looking at or near the Sun will cause irreversible damage to your eye. Do not point this tele- scope at or near the Sun. Do not look through the telescope as it is moving.

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Contents Page Page Contents QUICK-START Guide Important Note Telescope Features AutoStarSee Optional ACCESSORIES, pages 43, 44, Ascension Declination setting# Computer Control Panel see inset Definitions Ascension,Shift Microfocuser? Autostar II Features Tour the Cosmos with Just the Push of a ButtonLibrary # of Objects Want to learn more about changing slew LX200R Tips Parts Listing How to Attach the Tripod to the Telescope AssemblyGetting Started How to Assemble Your Telescope To install batteriesTip Attach Diagonal or accessories Choosing an EyepieceMounting and Adjusting the Viewfinder Too Much Power?Observing by Moving the Telescope Manually Observing Using AutoStar IIs Arrow KeysObserving Terrestrial ObservingTo use the microfocuser Focusing the Eyepiece Using the MicrofocuserSlew Speeds Key # SpeedTo Track an Object Automatically Observe the MoonAstronomical Observing Moving Through AutoStar II’s MenusWhich One’s the Alignment Star? It is recommended that you do not attempt a GPS fix indoorsObserve a Star using the Automatic Tracking Feature Using the Guided TourGo To Saturn Global Positioning System Detecting True LevelFinding True North Basic Autostar AutoStar II Navigation ExerciseTo Calculate Sunset time Navigating AutoStar Look into the FutureMenus At orObject Menu To slew the telescope to catalog objectsWant to learn more about Observing Satellites? See Event Menu DefinitionGlossary Menu Utilities MenuLandmarks? See Setup Menu Mount Feature? See Appendix I SmartTiming is Everything Custom Tracking Rate Setup Menu Daylight SAVING, Adding and editing sites?Hot Button Menus Adding Observing Sites To Add a Site to the user-defined site listTo Edit a Site Creating User Objects To GO to a user-entered objectTo Add a landmark to the database Observing SatellitesLandmarks TipsTo perform a Landmark Survey IdentifyTo Select a landmark from the database To check on the available amount of memory in AutoStarBrowse Displayed information ExampleHow to perform the Easy Align Procedure Alternate Alt/Az AlignmentsEasy Two-Star Alignment To Set the Home Position Manually Two-Star Alt/Az AlignmentOne-Star Alt/Az Alignment Tip Try a Spiral SearchTrain Menu Option Periodic Error CorrectionUpdate Menu Option Erase Menu OptionPhotography Few tips on photography with the LX200R telescopesPhotography with a Digital Camera Photography with Meade’s AutoStar SuiteStar Charts Image of M13 captured with the Deep Sky ImagerOptional Accessories Meade Series 4000 EyepiecesSeries 4000 8 24mm Zoom Eyepiece Illuminated Reticle Eyepiece Maintenance CollimationDefocused star images. Misaligned 1, 2, Aligned Inspecting the Optics Meade Consumer Solutions ServiceWhat is Smart Drive? Gauging the Movement of the TelescopeSpecifications 10 LX200R Specifications10 f/10 LX200R Specifications 12 f/10 LX200R Specifications 14 f/10 LX200R Specifications16 f/10 LX200R Specifications AutoStar II System SpecificationsAutoStar II Handbox Specifications Setting Circles Equatorial AlignmentCelestial Coordinates Declination Setting Circle Equatorial WedgeLining Up with the Celestial Pole Locating PolarisPrecise Polar Alignment LX200R mounted on an equa- torial wedgeOne-Star Polar Alignment AutoStar II Polar AlignmentEasy Polar Alignment Two-Star Polar AlignmentCity State/Prov./Country Latitude Appendix B Latitude ChartLatitude Chart for Major Cities of the World City Country LatitudeTour Modes Command LineWhat you will need Comment LineWriting a Tour TitlePick ONE / Pick END Pick END Auto Slew on / Auto Slew OFF Downloading ToursAppendix D Training the Drive Further StudyTo observe the Apollo 15 landing site using the Moon option Appendix E the Moon Menu16 LX200R Unique Features Control Panel FeaturesCommercial Shipping Telescope Assembly To Assemble the 16 Super Field TripodMounting the Optical Tube Assembly OTA Attaching the 16 Drive BaseAttaching the Fork Attaching the Power and Data Cords Observing Considerations14 LX200R Unique Features Appendix H To attach the microfocuser to the de-rotaterOperation AppendixIntroduction TrainingOther Menus Options Save As and Load UpdatePermanently Mounted Scopes OffObjects in Space Basic AstronomyAutoStar II Glossary MoonPlanets Deep-Sky ObjectsPage Page Meade Limited Warranty

LX200 R specifications

The Meade LX200 R is a renowned telescope that has captivated astronomers and enthusiasts alike with its impressive blend of advanced technology, user-friendly features, and excellent optical performance. Launched as part of Meade's line of enjoyable yet high-performing telescopes, the LX200 R remains a top choice for both amateur stargazers and serious astrophotographers.

At the heart of the LX200 R is its advanced telescope design. It features a robust, 8-inch primary mirror, which provides exceptional light-gathering capability. This larger aperture allows users to observe faint celestial objects, including distant galaxies, nebulae, and star clusters, with stunning clarity and detail. The telescope's reflective optics are coated with high-quality, anti-reflective coatings that enhance contrast and minimize light loss, ensuring crisp, clear images even in challenging viewing conditions.

One of the standout features of the LX200 R series is its sophisticated computer-controlled GoTo mount. This feature allows users to locate over 30,000 celestial objects with remarkable precision using a simple one-button operation. The dual-axis motor drives enable smooth tracking of objects across the night sky, making it easier to follow their movements. The mount also includes an integrated GPS system, which automatically adjusts the telescope's location and time settings for accurate alignment without requiring complex manual adjustments.

The LX200 R is configured for both visual observations and astrophotography, accommodating a wide range of accessories like cameras and focal reducers. Its sturdy construction minimizes vibrations, which is crucial for capturing sharp images during extended exposures. Additionally, the telescope's optical tube is designed to be both lightweight and durable, making it convenient for transport and setup in various observing locations.

The ergonomic design of the LX200 R also enhances user experience, featuring a comfortable eyepiece height and an intuitive control panel. The display is user-friendly, allowing even novice astronomers to navigate settings and options quickly. With its combination of high-quality optics, advanced tracking capabilities, and versatile design, the Meade LX200 R continues to be a preferred choice for anyone looking to explore the wonders of the universe with sophistication and ease.
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