16_english, Ws e n, Ointing your telescope – Sky-Watcher EQ2 MOUNT User Manual

16

Finding objects using the setting circles
Example: Finding the faint planetary nebula M57; "The Ring"
From a star chart, we know the coordinates of the Rings are Dec. 33º and R.A. 18h52m. Unlock the DEC lock knob and

rotate your telescope in DEC until the pointer on the DEC setting circle reads 33º. Re-tighten the DEC lock knob.

Loosen the R.A. lock knob and rotate the telescope in R.A. until the pointer on the R.A. setting circle reads 18h52m (do

not move the R.A. circle). Re-tighten the R.A. lock knob. Now look through the Red Dot Finder to see if you have found

M57. Adjust the telescope with R.A. and DEC. flexible cables until M57 is centred in the Red Dot Finder. Now look

through the telescope using a low power eyepiece. Centre M57 in the field of view of the eyepiece.
The setting circles will get you close to the object you wish to observe, but are not accurate enough to put it in the

centre of your Red Dot Finder's/finderscope's field of view. The accuracy of your setting circles also depends on how

accurate your telescope is polar aligned.

A German Equatorial mount has an adjustment, sometimes called a wedge, which tilts the mount's polar axis so that it

points at the appropriate Celestial Pole (NCP or SCP). Once the mount has been polar aligned, it needs to be rotated

around only the polar axis to keep an object centred. Do not reposition the mount base or change the latitude setting.

The mount has already been correctly aligned for your geographical location (ie. Latitude), and all remaining telescope

pointing is done by rotating the optical tube around the polar (R.A.) and declination axes.
A problem for many beginners is recognizing that a polar-aligned, equatorial mount acts like an alt-azimuth mount

which has been aligned to a celestial pole. The wedge tilts the mount to an angle equal to the observer's Latitude, and

therefore it swivels around a plane which parallels the celestial (and Earth's) equator (Fig.l). This is now its "horizon";

but

remember that part of the new horizon is usually blocked by the Earth. This new "azimuth" motion is called

Right Ascension (R.A). In addition, the mount swivels North(+) and South(-) from the Celestial Equator towards the

celestial poles. This plus or minus "altitude" from the celestial equator is called Declination (Dec).

Fig.l

Plane of local horizon

Nadir

Equatorial Mount

(Northern Hemisphere)

Mount aligned on

North Celestial Pole

Zenith

Right

Ascension

Apparent

movement

of stars

Plane of Celestial

Equator

Meridian

Line

Declination

Object you

are viewing

Polaris

Latitude

W

S

E

N

P

ointing Your Telescope