Orion #8297 8" F/3.9 Operating Your Orion f/3.9 Newtonian Astrograph, Attaching the Finder Scope

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Attaching the Finder Scope

The included 9x50 crosshair finder scope (Figure 3a) is use- ful for locating objects in the sky and centering them in the main telescope’s field of view.

To install it, first remove the O-ring from the bracket and place it over the body of the finder scope until it seats in the narrow groove near the middle of the finder. Unthread the two black nylon alignment screws on the bracket until the screw ends are flush with the inside surface of the bracket. Slide the eye- piece end (narrow end) of the finder scope into the end of the bracket’s cylinder opposite the alignment screws while pull- ing the chrome, spring-loaded tensioning pin on the bracket with your fingers (Figure 3b). Push the finder scope through the bracket until the O-ring seats just inside the front opening. Release the tensioner and tighten the two black nylon screws a couple of turns each to secure the finder scope in place. The tips of the tensioner and nylon screws should seat into the wide groove on the finder scope’s body.

Now slide the foot of the finder scope bracket into the dovetail base on the main telescope. You’ll first have to back out the thumbscrew lock on the dovetail base a few turns to allow the bracket to slide in. Once the bracket is inserted, tighten the thumbscrew lock.

Aligning the Finder Scope

The finder scope and the main telescope must be aligned so they point to exactly the same spot in the sky. Alignment is easiest to do in daylight. First, insert an eyepiece (a crosshair eyepiece is best) into the eyepiece holder in the telescope’s focuser. Point the telescope at an object such as the top of a telephone pole or a street sign that is at least a quarter- mile away. Move the telescope so the target object appears in the very center of the field of view when you look into the eyepiece.

Now look through the finder scope. Is the object centered in the finder scope’s field of view? If not, hopefully it will be visible somewhere in the field of view, so that only a minor adjustment of the finder scope’s two alignment screws will be needed to center it. Otherwise you’ll have to make coarser adjustments to redirect the aim of the finder scope.

Once the target object is centered on the crosshairs of the finder scope, look again in the telescope’s eyepiece and see if it is still centered there as well. If it isn’t, repeat the entire process, making sure not to move the telescope while adjust- ing the alignment of the finder scope. When the target object is centered on the crosshairs of the finder scope and in the telescope’s eyepiece, the finder scope is aligned and ready to be used for locating objects.

The finder scope alignment should be checked before every imaging or observing session. This can easily be done at night, before viewing through the telescope. Choose any bright star or planet, center the object in the telescope eye- piece, and then adjust the bracket’s alignment screws until the star or planet is also centered on the finder’s crosshairs.

Finder

O-ring

Finder

Nylon alignment

(not visible)

scope

scope

thumbscrew (2)

 

bracket

 

 

 

 

 

 

 

 

 

 

 

Focusing lock ring

Eyepiece

Dovetail base

Tensioner pin

 

 

Figure 3a. The 9x50 finder scope and bracket

Figure 3b. Pull back the spring tensioning pin and slide the finder scope into its bracket until the O-ring is seated in the bracket ring.

Focusing the Finder Scope

If the image in the finder scope appears out of focus, you will need to refocus the finder scope for your vision. First, loosen the lock ring located behind the objective lens cell on the body of the finder scope (Figure 3a). Back the lock ring off by a few turns. Then refocus the finder scope on a distant object by rotating the objective lens cell clockwise or counterclockwise. Once the image appears sharp, retighten the lock ring behind the objective lens cell. The finder scope’s focus should not need to be adjusted again.

2.Operating Your Orion f/3.9 Newtonian

Astrograph

Your Orion f/3.9 Newtonian Astrograph is designed primar- ily for astro-imaging, but it makes a fine visual instrument as well. For visual use, we recommend using high-quality eye- pieces to take full advantage of the instrument’s exceptional optical quality. For imaging applications, the telescope is opti- mized for use with an APS-C or smaller size sensor, found in such cameras as the Orion StarShootPro, Orion Parsec, and many DSLRs.

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Contents Orion 8 and 10 f/3.9 Newtonian Astrographs OrionTelescopes.comParts List DVDGetting Started Attaching the Telescope to a MountDual-Speed Crayford Focuser Fine FocusFocusing the Finder Scope Operating Your Orion f/3.9 Newtonian AstrographAttaching the Finder Scope Aligning the Finder ScopeFan Installation Using the Cooling FanCooling the Telescope Mirror Cooling FanAttaching a Dslr Camera Attaching a CCD CameraRemoving the Piggyback Camera Adapter from the Tube Ring Visual Observing with the f/3.9 Newtonian Astrograph Collimating the Optics Aligning the MirrorsAdjusting the Secondary Mirror’s Axial Position Collimation CapPrimary Mirror Center Mark Preparing the Telescope for CollimationAdjusting the Secondary Mirror’s Rotational Position Adjusting the Secondary Mirror’s Radial PositionAdjusting the Secondary Mirror’s Tilt Star-Testing the Telescope Care & MaintenanceAligning the Primary Mirror Cleaning Mirrors One-Year Limited Warranty Specifications

#8296 10" F/3.9, #8297 8" F/3.9 specifications

The Orion #8297 8" F/3.9 and #8296 10" F/3.9 reflect the latest innovations in astronomical technology, designed to meet the needs of both amateur and professional astronomers. These telescopes are renowned for their impressive optics, portability, and user-friendly features, making them ideal for deep sky observation and astrophotography.

The Orion #8297 8" F/3.9 features an 8-inch aperture, which allows for a remarkable light-gathering capacity, making it suitable for observing faint celestial objects. With a fast focal ratio of F/3.9, this telescope enables astronomers to capture stunning images of galaxies, nebulae, and star clusters with minimal exposure times. The telescope’s well-constructed primary mirror is made from high-quality glass, ensuring sharp and detailed views of the night sky. Additionally, the dual-speed 2” Crayford-style focuser enhances focusing precision, allowing users to achieve fine adjustments with ease.

On the other hand, the Orion #8296 10" F/3.9 elevates the observational experience with a larger 10-inch aperture. This increased size further enhances light-gathering ability, resulting in even clearer images of distant objects. Like its 8-inch counterpart, the F/3.9 focal ratio makes this telescope particularly advantageous for astrophotography, enabling users to shoot spectacular deep-sky images efficiently. The telescope is constructed with a sturdy, fully adjustable mount that ensures stability while tracking celestial objects, even during high-magnification viewing.

Both models come equipped with adjustable finderscopes, which assist in locating objects in the vast night sky, and they include a set of high-quality eyepieces that provide a range of magnifications to suit different observation needs. Furthermore, the lightweight design of both telescopes allows for easy transport to various observing sites, making them versatile tools for astrophotography enthusiasts and casual observers alike.

In summary, the Orion #8297 8" F/3.9 and #8296 10" F/3.9 are excellent telescopes that combine advanced optics with user-centric design. Their strong performance, portability, and innovative features make them perfect choices for anyone looking to explore the wonders of the universe, from novices to seasoned astronomers.