Meade 4500 instruction manual Lining Up with the Celestial Pole, Using the Telescope

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(which passes, for example, through the constellations Orion, Virgo and Aquarius) is specified as having 0°0'0" Declination. The Declination of the star Polaris, located very near the North Celestial Pole, is +89.2°.

The celestial equivalent to Earth longitude is called “Right Ascension,” or “R.A.” and is measured in hours, minutes and seconds from an arbitrarily defined “zero” line of R.A. passing through the constellation Pegasus. Right Ascension coordinates range from 0hr0min0sec up to (but not including) 24hr0min0sec. Thus there are 24 primary lines of R.A., located at 15 degree intervals along the celestial equator. Objects located further and further east of the prime (0h0m0s) Right Ascension grid line carry increasing R.A. coordinates.

With all celestial objects therefore capable of being specified in position by their celestial coordinates of Right Ascension and Declination, the task of finding objects (in particular, faint objects) in the telescope is vastly simplified. The setting circles, R.A (27) and Dec. (28) of the Model 4500 telescope may be dialed, in effect, to read the object coordinates and the object found without resorting to visual location techniques. However, these setting circles may be used to advantage only if the telescope is first properly aligned with the North Celestial Pole.

D. Lining Up with the Celestial Pole

Objects in the sky appear to revolve around the celestial pole. (Actually, celestial objects are essentially “fixed,” and their apparent motion is caused by the Earth’s axial rotation). 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, by moving the telescope about one axis, the polar axis.

If the telescope is reasonably well aligned with the pole,

 

 

therefore, very little use of the telescope’s Declination

 

 

flexible cable control is necessary and virtually all of the

Little Dipper

Polaris

required telescope tracking will be in Right Ascension. (If

 

 

the telescope were perfectly aligned with the pole, no

 

 

Declination tracking of stellar objects would be required).

 

 

For the purposes of casual visual telescopic obser-

 

 

vations, lining up the telescope’s polar axis to within a

Big Dipper

Cassiopeia

degree or two of the pole is more than sufficient: with this

 

 

 

level of pointing accuracy, the telescope can track

 

 

accurately by slowly turning the telescope’s R.A. flexible

Fig. 3: Finding Polaris

cable control and keep objects in the telescopic field of

 

 

view for perhaps 20 to 30 minutes.

 

 

To line up the Model 4500 with the pole, follow this procedure:

1)Release the Azimuth lock (30) of the Azimuth base (33), so that the entire telescope-with-mounting may be rotated in a horizontal direction. Rotate the telescope until the polar axis (10) points due North. Use a compass or locate Polaris, the North Star (see Fig. 3), as an accurate reference for due North.

2)Level the mount, if necessary, by adjusting the heights of the three tripod legs.

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 with the latitude adjustment knob (11) so that the pointer indicates the correct latitude of your viewing location on the latitude scale (29). Re-tighten the latitude lock (9).

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 need be done each time you use the telescope is to point the polar axis due North, as described in step (1) above.

E. Using the Telescope

With the telescope assembled, balanced and polar aligned as described above, you are ready to begin observations. Decide on an easy-to-find object such as the Moon, if it is visible, or a bright star to become accustomed to the functions and operations of the telescope. For the best results during observations, follow the suggestions below:

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Contents Model 4500 4.5 Equatorial Reflecting Telescope Meade Limited Warranty Table of Contents Key to Fig Meade Model 4500 4.5 Equatorial Reflecting Telescope Introducing the Meade Model Unpacking and AssemblyThis Manual Standard EquipmentAlignment of the Viewfinder Balancing the TelescopeCelestial Sphere Understanding Celestial Movements and CoordinatesLining Up with the Celestial Pole Using the TelescopePage Calculating Power Using Setting CirclesMount and Tripod Adjustments Maintenance CleaningCollimation Alignment of the Optics Correct collimationDiagonal Assembly Diagonal holder adjustments Spider vane adjustmentsPrimary mirror adjustments Star testing the collimationOptional Accessories Specifications ModelMeade Instruments Corporation

4500 specifications

The Meade 4500 is a notable telescope in the world of amateur astronomy, designed to make stargazing accessible and rewarding for both novice and experienced observers. This telescope belongs to the category of Newtonian reflectors, known for their simple design, impressive optics, and affordability. At its core, the Meade 4500 features a 4.5-inch (114 mm) aperture, which enables users to capture bright images of celestial objects and a variety of deep-sky phenomena.

One of the main features of the Meade 4500 is its advanced optics system. The primary mirror is parabolic, ensuring optimal light collection efficiency and delivering crisp images free from spherical aberration. The telescope's focal length is 900 mm, providing a versatile viewing experience with a moderate focal ratio that balances wide-field and high-magnification observations. Coupled with a 1.25-inch focuser, the telescope accommodates a range of eyepieces, allowing users to customize magnification for various celestial targets.

The Meade 4500 is equipped with a sturdy and stable mount, crucial for precise tracking and steady views. The telescope employs an adjustable, manual altitude-azimuth mount, which provides smooth movement in both vertical and horizontal directions. This mount is particularly beneficial when observing planets, the Moon, or any other celestial object that demands meticulous positioning. The lightweight design of the telescope further enhances portability, making it easy to transport for observations in different locations.

Another key characteristic of the Meade 4500 is its user-friendly setup. The telescope usually comes with an instructional manual, guiding users through the assembly and initial alignment process. The setup typically requires only basic tools, allowing beginner astronomers to quickly get started. Additionally, Meade often provides a selection of accessories with the telescope, such as star charts or a red dot finder, which enhances the overall experience.

In terms of technology, the Meade 4500 embodies the principles of optical design and ergonomics. The telescope’s structure allows for easy tracking of celestial movements, and its reflectivity ensures bright views of both bright planets and distant star clusters. Whether you're examining the rings of Saturn or exploring the lunar surface's fine details, the Meade 4500 stands out as an excellent gateway into the universe, combining optical performance with user-oriented features perfect for every stargazing enthusiast.