Meade 60EQ-A instruction manual Using the Telescope

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3.Determine the latitude of your observing location by checking a road map or atlas. Release the latitude lock (33, Fig. 1) and tilt the telescope mount so that the star “Polaris” is centered in the telescope’s viewfinder eyepiece, then re-tighten the latitude lock.

4.If steps (1) - (3) above were performed with reasonable accuracy, your telescope is now sufficiently well- aligned to the North Celestial Pole for visual observations.

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) above.

USING THE TELESCOPE

1.With the telescope aligned to the Pole, you are now ready to begin observations.

a.First, decide on an easy to find object. Land objects, during the daytime are a good way to become accustomed to the functions and operations of the telescope. At night, try observing the Moon, if it is visible, or a bright star.

b.Slightly loosen the telescope’s R.A. lock (26, Fig. 1) and Declination lock (24, Fig. 1). With a slight amount of hand-pressure the telescope should now be able to turn freely on its 2 axes.

c.Using the aligned viewfinder (17, Fig. 1), sight-in the object you have chosen. With the object centered on the viewfinder’s cross hairs, re-tighten the R.A. and Declination locks.

d.The object should now be somewhere in the main telescope’s field of view. Next, using the 25mm eyepiece, precisely center the object in the main telescope’s field of view, and sharply focus the image by turning the focus knob (10, Fig. 1). The 25mm eyepiece included as standard equipment is the best eyepiece to use for the initial finding and centering of any object. The 25mm eyepiece presents a bright, wide field of view, ideal for terrestrial and general astronomical observing of star fields, clusters of stars, nebulae, and galaxies. For lunar and planetary viewing, switch to a higher power eyepiece such as the 9mm–conditions permitting. If the image starts to become fuzzy as you work into higher magnifications, then back down to a lower power; the atmospheric steadiness is not sufficient to support higher powers at the time you are observing.

e.Note that the object immediately starts to drift out of the field of view. This motion is caused by the Earth’s rotation. If your telescope is polar aligned, you can “track” the object and keep it in the field of view by turning the R.A. control cable (8, Fig. 1). Objects will appear to move through the field of view more rapidly at higher powers. Note: The Declination control cable (9, Fig. 1) is used only for centering purposes, and not for tracking.

2.Avoid touching the eyepiece while observing through the telescope. Vibrations resulting from such contact will cause the image to move. Avoid observing sites where ground-based vibrations may shake the tripod. Viewing from the upper floors of a building may also introduce image movement.

3.Allow a few minutes for your eyes to become “dark adapted” before attempting observations. Use a red- filtered flashlight to protect your night vision when reading star maps or inspecting components of the telescope.

4.Avoid setting up the telescope inside a room and observing through an open window (or worse yet, a closed window). Images viewed in such a manner may appear blurred or distorted due to temperature differences between inside and outside air. Also, it is a good idea to allow your telescope a chance to reach the ambient (surrounding) outside temperature before starting an observing session.

5.Certain atmospheric conditions can distort an observed image. Planets, in particular, viewed while low on the horizon often exhibit lack of sharpness—the same object when observed higher in the sky will appear to be much better resolved with far greater contrast. Also, turbulent air in the upper atmosphere can cause the images to “shimmer” in the eyepiece—reduce power until the image steadies. Keep in mind that a bright, clearly resolved, but smaller image will show far more interesting detail than a larger, dimmer, fuzzy image.

6.Setting Circles: These etched dials (25, Fig. 1) and (27, Fig. 1) aid in the location of faint celestial objects, perhaps, not easily found by direct visual observation. To use the setting circles, follow this procedure:

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Contents Meade Instruments Corporation Limited Warranty Table of Contents Meade 60EQ-A 2.4 Equatorial Refracting Telescope Features in FigStandard Equipment $ 2%Unpacking and Assembly Be certain that this safety washer/screw is always in placeIntroduction Aligning the Viewfinder Balancing the TelescopeUnderstanding Celestial Movements and Coordinates Lining UP with the Celestial Pole Polar Alignment of the Equatorial MountSee Fig Using the Telescope Applications of the Telescope Calculating PowerMaintenance SpecificationsOptional Accessories

60EQ-A specifications

The Meade 60EQ-A is a remarkable entry-level telescope that opens the universe to beginner astronomers and enthusiasts alike. With its combination of quality optics, ease of use, and robust features, this telescope makes stargazing accessible and enjoyable for all.

One of the standout features of the Meade 60EQ-A is its 60mm aperture. This allows for adequate light-gathering capability, enabling users to observe celestial objects such as the Moon, Saturn’s rings, and even some deep-sky objects like star clusters and nebulae. The telescope comes with two quality eyepieces—MA 9mm and MA 25mm—providing different magnifications for diverse viewing experiences. The 25mm eyepiece offers wider fields of view, making it perfect for observing larger celestial objects, while the 9mm eyepiece enhances detail in more distant objects.

A key technology employed in the Meade 60EQ-A is its fully coated optics. This feature enhances light transmission, resulting in brighter and clearer images. The telescope is engineered with high-quality glass and features a refractor design, which is known for its ability to produce sharp images with minimal chromatic aberration.

The telescope is mounted on a sturdy equatorial mount, which is essential for tracking celestial movements smoothly. The equatorial design means that once the telescope is aligned with the North Star, it can easily follow the motion of celestial objects as they move across the night sky. This feature greatly enhances the viewing experience, making it easier to observe planets and stars over extended periods.

Another advantage of the Meade 60EQ-A is its lightweight design, allowing for easy portability. It can be set up quickly, making it ideal for both backyard usage and trips to darker locations outside the city.

In addition, the telescope comes with an included smartphone adapter. This innovative accessory allows users to capture images of the night sky using their mobile devices, bridging the gap between traditional stargazing and modern technology.

In conclusion, the Meade 60EQ-A is a well-equipped telescope that combines quality optics, user-friendly features, and excellent portability. Whether you are a novice looking to explore the wonders of the universe or an experienced stargazer seeking a reliable instrument, the Meade 60EQ-A provides a fantastic platform for astronomical observations. Its robust construction, easy setup, and impressive features make it a valuable addition to any aspiring astronomer’s arsenal.