Meade 4500 instruction manual Using Setting Circles, Calculating Power

Page 11

– 11 –

The Moon: A veritable treasury of craters, mountain ranges and fault lines. The best contrast for viewing the Moon is during its crescent phase. The contrast during the full Moon phase is low due to the angle of illumination.

Deep-Space: Nebulae, galaxies, multiple star systems, star clusters–hundreds of such objects are visible through the Model 4500.

F. Using Setting Circles

Setting circles of the polar aligned equatorial mount can facilitate the location of faint celestial objects not easily found by direct visual observation. To use the setting circles, follow this procedure:

Use a star chart or star atlas, and look up the celestial coordinates, Right Ascension and Declination (R.A. and Dec.), of an easy-to-find bright star that is within the general vicinity of the faint object you wish to locate.

Center the determined bright star in the telescope’s field of view.

Manually turn the R.A. setting circle (27) to read the R.A. of the object now in the telescope’s eyepiece.

The setting circles are now calibrated (the Dec. setting circle (28) is factory calibrated). To locate a nearby faint object using the setting circles determine the faint object’s celestial coordinates from a star chart, and move the telescope in R.A. and Declination until the setting circles read the R.A. and Dec. of the object you are attempting to locate. If the above procedure has been carefully performed, the faint object will now be in the field of a low power eyepiece.

The R.A. Setting Circle must be manually re-calibrated on the current Right Ascension of a star every time the telescope is set up, and reset to the centered object’s R.A. coordinate before moving to a new R.A. coordinate setting. The R.A. Setting Circle has two sets of numbers, the inner set is for Southern hemisphere use while the outer set of numbers (the set closest to the R.A. gear), is for use by observers located North of the Earth’s equator (e.g. in North America).

G. Calculating Power

The power, or magnification of the telescope depends on two optical characteristics: the focal length of the main telescope and the focal length of the eyepiece used during a particular observation. For example, the focal length of the Model 4500 telescope is fixed at 910mm. To calculate the power in use with a particular eyepiece, divide the focal length of the eyepiece into the focal length of the main telescope. For example, using the MA25mm eyepiece supplied with the Model 4500, the power is calculated as follows:

910mm

Power = 25mm = 36x

Meade Instruments manufactures several types of eyepiece designs that are available for your telescope. The type of eyepiece (“MA” Modified Achromatic, “SP” Super Plössl, etc.) has no bearing on magnifying power but does affect such optical characteristics as field of view, flatness of field, eye-relief, and color correction.

The maximum practical magnification is determined by the nature of the object being observed and, most importantly, by the prevailing atmospheric conditions. Under very steady atmospheric “seeing,” the Model 4500 may be used at powers up to about 228x on astronomical objects. Generally, however, lower powers of perhaps 75x to 175x will be the maximum permissible, consistent with high image resolution. When unsteady air conditions prevail (as witnessed by rapid “twinkling” of the stars), extremely high-power eyepieces result in “empty magnification,” where the object detail observed is actually diminished by the excessive power.

Assorted eyepieces are available both to increase and decrease the operating eyepiece power of the telescope. If the Model 4500 is used on a regular basis, a selection of four to five eyepieces is recom- mended. For example, an eyepiece assortment of focal lengths 40mm, 25mm*, 12.5mm, 9mm, and 6mm yields a magnifying range of 22.5x, 36x, 72x, 101x, and 150x respectively. A high quality Barlow Lens, such as the Meade #126 2x Telenegative Barlow Lens, serves to double the power of each of these eyepieces. To use the Barlow Lens, insert the #126 unit into the telescope’s focuser first, followed by an eyepiece; the power thus obtained is then double the power obtained when the eyepiece is used alone. For example, the MA25mm eyepiece, when used in conjunction with the #126 2x Telenegative Barlow Lens yields 72x.

Page 10 Page 12
Image 11
Page 10 Page 12
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 Standard Equipment Unpacking and AssemblyIntroducing the Meade Model This ManualAlignment of the Viewfinder Balancing the TelescopeCelestial Sphere Understanding Celestial Movements and CoordinatesLining Up with the Celestial Pole Using the TelescopePage Calculating Power Using Setting CirclesCorrect collimation Maintenance CleaningMount and Tripod Adjustments Collimation Alignment of the OpticsDiagonal Assembly Star testing the collimation Spider vane adjustmentsDiagonal holder adjustments Primary mirror adjustmentsOptional 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.
Top Page Image Contents