Orion 9862 instruction manual Right, Polar Alignment

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Declination setting circle

Declination lock lever

Front opening in R.A. axis

Latitude scale

Latitude adjustment T-bolts

Azimuth fine adjustment knobs

Declination

axis

 

Right Ascension lock lever

Right Ascension setting circle lock thumbscrew

Right

Ascension

 

 

axis

 

 

Polar axis finder scope

Right Ascension setting circle

Figure 6. The equaltorial mount of the AstroView 100 EQ.

movement of astronomical objects, thereby keeping them from drifting out of the telescope’s field of view while you’re observing.

This is accomplished by slowly rotating the telescope on its right ascension (R.A.) axis, using only the R.A. slow-motion cable. But first the R.A. axis of the mount must be aligned with the Earth’s rotational (polar) axis, a process called polar alignment.

Polar Alignment

For Northern Hemisphere observers, approximate polar align- ment is achieved by pointing the mount’s R.A. axis at the North Star, or Polaris. It lies within 1° of the north celestial pole (NCP), which is an extension of the Earth’s rotational axis out into space. Stars in the Northern Hemisphere appear to revolve around Polaris.

To find Polaris in the sky, look north and locate the pattern of the Big Dipper (Figure 7). The two stars at the end of the “bowl” of the Big Dipper point right to Polaris.

Observers in the Southern Hemisphere aren’t so fortunate to have a bright star so near the south celestial pole (SCP). The star Sigma Octantis lies about 1° from the SCP, but it is barely visible with the naked eye (magnitude 5.5).

For general visual observation, an approximate polar align- ment is sufficient:

1.Level the equatorial mount by adjusting the length of the three tripod legs.

2.Loosen one of the latitude adjusting T-bolts and tighten the other to tilt the mount until the pointer on the latitude scale is set at the latitude of your observing site. If you don’t

 

Little Dipper

 

(in Ursa Minor)

Big Dipper

N.C.P.

 

 

 

 

(in Ursa Major)

 

 

 

Polaris

 

 

 

 

 

 

 

Pointer

 

 

 

Cassiopeia

Stars

 

 

 

 

 

 

 

Figure 7. To find Polaris in the night sky, look north and find the Big Dipper. Extend an imaginary line from the two “Pointer Stars” in the bowl of the Big Dipper. Go about five times the distance between those stars and you’ll reach Polaris, which lies within 1° of the north celestial pole (NCP).

know your latitude, consult a geographical atlas to find it. For example, if your latitude is 35° North, set the pointer to +35. The latitude setting should not have to be adjusted again unless you move to a different viewing location some distance away.

3.Loosen the Dec. lock lever and rotate the telescope optical tube until it is parallel with the R.A. axis. The pointer on the Dec. setting circle should read 90°. Retighten the Dec. lock lever.

4.Move the tripod so the telescope tube (and R.A. axis) points roughly at Polaris. If you cannot see Polaris directly

from your observing site, consult a compass and rotate the

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Contents Orion AstroView 100 EQ Finder scope Assembly Table of ContentsParts List 6x30 finder scope Balancing the Telescope Installing the Finder ScopeGetting Started Inserting the EyepieceViewing with Eyeglasses Setting up and Using the Equatorial MountFocusing the Telescope Focusing the finder scopePolar Alignment RightAligning the Polar Axis Finder Scope Polar Axis Finder ScopeTracking Celestial Objects Using the Polar Axis FinderOptional Motor Drive H 35.4m Dec. -5 Understanding the Setting CirclesCalibrating the Right Ascension Setting Circle Finding Objects With the Setting CirclesSeeing and Transparency Astronomical ObservingSite Selection Cooling Your Telescope600mm25mm = Calculating Magnification PowerUse of 2 Eyepieces Finding Deep-Sky Objects Starhopping What to ExpectPhotography Terrestrial ObservingCleaning Lenses Care and MaintenanceCollimation Specifications One-Year Limited Warranty