Appendix a Equatorial Polar Alignment | Meade ETX-60AT instruction

APPENDIX A: EQUATORIAL (POLAR) ALIGNMENT

Fig. 26: Tripod set in Polar configuration on optional #883 tripod.

Polar Alignment

The great majority of ETX-60AT and ETX-70AT owners will find it unnecessary ever to Polar align the telescope. With these ETX telescope models the standard-equipment Autostar controller allows the telescope to be used in the altazimuth (Alt/Az) orientation for all observing purpose. This section is included only for educational purposes, where the observer might wish to operate the analog set- ting circles (13 and 17, Fig.1) in place of the digi- tal setting circles built into the Autostar hand con- troller. Absent a desire to use the analog circles or simply to be informed about the use of the equato- rial (Polar-aligned) mount, reading of this appendix may be omitted.

North
Celestial				+90	Dec.
Pole							Star
(Vicinity							Star
(Vicinity
of Polaris)						e
						D
						c
1						l
1						a
						i
						n
							t
							i
		14	13	12	11	10	o
	15	14	13	12	11	10	n
17 16	15						9	8
17 16	Earth’s							8	7
18	Rotation								6
19	Rotation							4	5
20	21					2	3	4	Celestial
20	21	22	23	0	1		3		Celestial
		22	23	0	1				Equator
Right Ascension									Equator
Right Ascension									0 Dec.
									0 Dec.

South

Celestial

Pole -90 Dec.

Fig. 27: Celestial Sphere.

In Polar Alignment, the telescope is oriented so that the horizontal and vertical axes of the tele- scope are lined up with the celestial coordinate system. Polar Alignment requires the telescope to be mounted to the optional #883 Deluxe Field Tripod (Fig. 26).

In order to Polar align your telescope, it is essential to have an understanding of how and where to locate celestial objects as they move across the sky. This section provides a basic introduc- tion to the terminology of Polar-aligned astronomy, and includes instructions for finding the celestial pole and for finding objects in the night sky using Declination and Right Ascension.

Celestial Coordinates

Celestial objects are mapped according to a coordinate system on the Celestial Sphere (Fig. 26), an imaginary sphere surrounding Earth on which all stars appear to be placed. This celestial object mapping system is analogous to the Earth-based coordinate system of latitude and longitude.

The poles of the celestial coordinate system are defined as those two points where the Earth’s rotational axis, if extended to infinity, North and South, intersect the celestial sphere. Thus, the North Celestial Pole (1, Fig. 27) is that point in the sky where an extension of the Earth’s axis through the North Pole intersects the celestial sphere. This point in the sky is located near the North Star, Polaris.

In mapping the surface of the Earth, lines of longitude are drawn between the North and South Poles. Similarly, lines of latitude are drawn in an East-West direction, parallel to the Earth’s Equator. The Celestial Equator (2, Fig. 27) is a projection of the Earth’s Equator onto the celes- tial sphere.

Just as on the surface of the Earth, in mapping the celestial sphere, imaginary lines have been drawn to form a coordinate grid. Thus, object positions on the Earth’s surface are specified by their latitude and longitude. For example, you could locate Los Angeles, California, by its lati- tude (+34°) and longitude (118° West); similarly, you could locate the constellation Ursa Major (which includes the Big Dipper) by its general position on the celestial sphere:

R.A.: 11hr; Dec: +50°.

•Right Ascension: The celestial analog to Earth longitude is called “Right Ascension,” or “R.A.,” and is measured in time on the 24 hour “clock” and shown in hours or “hr," minutes or “min," and seconds or “sec," from an arbitrarily defined “zero” line of Right Ascension passing through the constellation Pegasus. Right Ascension coordinates range from 0hr 0min 0sec to 23hr 59min 59sec. 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 Right Ascension grid line, 0hr 0min 0sec, carry increasing R.A. coordinates.

•Declination: The celestial analog to Earth latitude is called Declination, or “Dec,” and is measured in degrees, arc-minutes and arc-seconds, e.g., 15° 27' 33". Declination shown as North of the celestial equator is indicated with a “+” sign in front of the measurement,

Appendix A 31

ETX-60AT specifications

The Meade ETX-60AT is a compact, portable telescope designed for amateur astronomers and budding astrophotographers. Known for its ease of use and exceptional optical performance, the ETX-60AT combines innovative technologies with user-friendly features, making it an ideal choice for stargazers of all skill levels.

One of the standout characteristics of the ETX-60AT is its 60mm aperture, which allows for impressive light-gathering capabilities. This telescope is equipped with a high-quality Schmidt-Cassegrain optical design that delivers sharp, clear images with minimal distortion. The multi-coated optics enhance light transmission, ensuring brighter images with better color fidelity, which is essential for planetary and deep-sky observations.

The telescope boasts a lightweight and compact design, making it highly portable for on-the-go astronomy. Weighing only about 4.5 pounds, the ETX-60AT comes with a sturdy, adjustable tripod that provides stable support during observation. The telescope is also equipped with a unique fork mount that includes Meade's AutoStar technology, allowing for automatic tracking of celestial objects. This feature is particularly beneficial for beginners, as it simplifies the process of locating and tracking stars and planets.

Meade’s AutoStar system is a highlight of the ETX-60AT, featuring a database with thousands of celestial objects. This intelligent computer control allows users to simply input the desired object, and the telescope will automatically position itself accordingly. The intuitive hand controller enhances the viewing experience by offering guided tours of the night sky, enabling users to discover and appreciate various astronomical wonders, from the moon and planets to distant galaxies and star clusters.

The ETX-60AT also includes a diagonal mirror, which provides comfortable viewing angles and helps in locating objects above the horizon with ease. The telescope comes with a variety of eyepieces, enhancing versatility and giving users options for different magnifications based on their observing needs.

In addition to its impressive optical and technological features, the Meade ETX-60AT is built with durability in mind. The telescope's construction withstands environmental challenges, allowing users to explore the night sky in a range of conditions.

Overall, the Meade ETX-60AT offers an outstanding balance of performance, portability, and user-friendliness, making it a perfect introductory telescope for amateur astronomers. Whether you are a seasoned observer or just starting your journey into astronomy, the ETX-60AT provides a reliable platform for exploring the universe.