Celestron C10-N, C8-NGT manual

Page 53

J-

Jovian Planets

K-

Kuiper Belt

L-

Any of the four gas giant planets that are at a greater distance form the sun than the terrestrial planets.

A region beyond the orbit of Neptune extending to about 1000 AU which is a source of many short period comets.

Light-Year (LY)

A light-year is the distance light traverses in a vacuum in one year at the speed of 299,792 km/ sec.

 

With 31,557,600 seconds in a year, the light-year equals a distance of 9.46 X 1 trillion km (5.87 X 1

M -

trillion mi).

 

Magnitude

Magnitude is a measure of the brightness of a celestial body. The brightest stars are assigned

 

magnitude 1 and those increasingly fainter from 2 down to magnitude 5. The faintest star that can be

 

seen without a telescope is about magnitude 6. Each magnitude step corresponds to a ratio of 2.5 in

 

brightness. Thus a star of magnitude 1 is 2.5 times brighter than a star of magnitude 2, and 100 times

 

brighter than a magnitude 5 star. The brightest star, Sirius, has an apparent magnitude of -1.6, the

 

full moon is -12.7, and the Sun's brightness, expressed on a magnitude scale, is -26.78. The zero

 

point of the apparent magnitude scale is arbitrary.

Meridian

A reference line in the sky that starts at the North celestial pole and ends at the South celestial pole

 

and passes through the zenith. If you are facing South, the meridian starts from your Southern

 

horizon and passes directly overhead to the North celestial pole.

Messier

A French astronomer in the late 1700’s who was primarily looking for comets. Comets are hazy

 

diffuse objects and so Messier cataloged objects that were not comets to help his search. This

N -

catalog became the Messier Catalog, M1 through M110.

 

Nebula

Interstellar cloud of gas and dust. Also refers to any celestial object that has a cloudy appearance.

North Celestial Pole

The point in the Northern hemisphere around which all the stars appear to rotate. This is caused by

 

the fact that the Earth is rotating on an axis that passes through the North and South celestial poles.

 

The star Polaris lies less than a degree from this point and is therefore referred to as the "Pole Star".

Nova

Although Latin for "new" it denotes a star that suddenly becomes explosively bright at the end of its

O -

life cycle.

 

Open Cluster

One of the groupings of stars that are concentrated along the plane of the Milky Way. Most have an

 

asymmetrical appearance and are loosely assembled. They contain from a dozen to many hundreds

P -

of stars.

 

Parallax

Parallax is the difference in the apparent position of an object against a background when viewed by

 

an observer from two different locations. These positions and the actual position of the object form a

 

triangle from which the apex angle (the parallax) and the distance of the object can be determined if

 

the length of the baseline between the observing positions is known and the angular direction of the

 

object from each position at the ends of the baseline has been measured. The traditional method in

 

astronomy of determining the distance to a celestial object is to measure its parallax.

Parfocal

Refers to a group of eyepieces that all require the same distance from the focal plane of the

 

telescope to be in focus. This means when you focus one parfocal eyepiece all the other parfocal

 

eyepieces, in a particular line of eyepieces, will be in focus.

Parsec

The distance at which a star would show parallax of one second of arc. It is equal to 3.26 light-years,

 

206,265 astronomical units, or 30,8000,000,000,000 km. (Apart from the Sun, no star lies within

 

one parsec of us.)

Point Source

An object which cannot be resolved into an image because it to too far away or too small is

 

considered a point source. A planet is far away but it can be resolved as a disk. Most stars cannot

R -

be resolved as disks, they are too far away.

 

Reflector

A telescope in which the light is collected by means of a mirror.

Resolution

The minimum detectable angle an optical system can detect. Because of diffraction, there is a limit

 

to the minimum angle, resolution. The larger the aperture, the better the resolution.

Right Ascension: (RA)

The angular distance of a celestial object measured in hours, minutes, and seconds along the

S -

Celestial Equator eastward from the Vernal Equinox.

 

Schmidt Telescope

Rated the most important advance in optics in 200 years, the Schmidt telescope combines the best

 

features of the refractor and reflector for photographic purposes. It was invented in 1930 by

 

Bernhard Voldemar Schmidt (1879-1935).

Sidereal Rate

This is the angular speed at which the Earth is rotating. Telescope tracking motors drive the

 

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Contents Advanced Series Advanced Series GT Precise GoTo Scope Setup Features Telescope Maintenance Page Advanced Series Newtonian Advanced Series GT Newtonian Attaching the Equatorial Mount Setting up the TripodAttaching the Center Leg Brace Installing the Counterweight BarAttaching the Hand Control Holder Advanced GT Models Only Installing the CounterweightAttaching the Telescope Tube to the Mount Telescope Installing the FinderscopeInstalling the Eyepieces Telescope Tube Completely Balancing the Tube in R.AAdjusting the Mount in Altitude Adjusting the MountAttaching the Declination Cable For GT Models Only Powering the TelescopeAdvanced GT Hand Control Hand Control Operation Startup Procedure Alignment ProceduresAuto Three-Star Align Auto AlignRe-Alignment Quick-AlignLast Alignment Selecting an Object Object CatalogTour Mode Nine available slew speeds Setup ProceduresIdentify Scope Setup Features Observing Tip Helpful Hint Utility Features Helpful Hint Advanced GT Image Orientation Calculating Magnification FocusingAligning the Finderscope General Observing Hints Determining Field of ViewCelestial Coordinate System Motion of the Stars Pointing at Polaris Latitude ScalesFinding the North Celestial Pole Declination Drift Method of Polar Alignment Lunar Observing Hints Observing the MoonObserving the Planets Observing the SunObserving Deep Sky Objects Solar Observing HintsSeeing Conditions TransparencyPage Piggyback Short Exposure Prime Focus Photography Reducing Vibration Terrestrial PhotographyMetering Auto Guiding Aligning the Secondary Mirror Care and Cleaning of the OpticsCollimation Aligning the Primary Mirror Night Time Star Collimating Page Page Page Page Appendix a Technical Specifications Appendix B Glossary of Terms Page Eclipsing or obscuring the brightness of the star Appendix C Longitudes Latitudes Georgia Minnesota Rhode Island Canada Appendix D RS-232 Connection Reset The Position Of Azm Or Alt Additional RS232 CommandsAppendix E Maps of Time Zones Page Page Page Page Page Page Page Celestron TWO Year Warranty
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C10-N, C8-NGT, C8-N specifications

The Celestron C8-NGT, C8-N, and C10-N telescopes represent a range of superior astronomical instruments that cater to both novice and experienced astronomers alike. Among these, the C8-NGT combines the advanced features of a computerized telescope with the simplicity of a Newtonian design. Its 8-inch aperture allows for impressive light-gathering capability, making it ideal for observing distant galaxies, star clusters, and nebulae. The GoTo mount enhances usability, enabling users to locate celestial objects effortlessly with the push of a button.

The C8-N, also featuring an 8-inch aperture, stands out with its open tube design that provides maximum airflow and minimizes thermal issues, ensuring optimal performance. The scope is designed with user-friendly adjustments and a sturdy equatorial mount, allowing for smooth tracking of celestial objects. Its high-quality optics provide sharp images and incredible clarity, making it suitable for both planetary and deep-sky observations.

On the other hand, the C10-N is the largest in this lineup, boasting a 10-inch aperture that dramatically enhances its light-gathering ability. This larger size makes the C10-N a powerhouse for serious astronomers looking to explore fainter objects and intricate details within astronomical features. Like the C8-N, it employs a Newtonian reflector design, allowing for a compact and manageable profile, while still providing stunning visuals across a range of celestial bodies.

All three telescopes incorporate Celestron's commitment to creating durable, robust, and user-friendly systems. They utilize premium quality glass and optics, which are coated to improve light transmission and provide high-contrast images. Additionally, they are designed with ease of assembly and portability in mind, catering to astronomers who enjoy observing in various locations.

The Celestron C8-NGT, C8-N, and C10-N serve as excellent options for anyone looking to deepen their astronomical pursuits, offering a blend of advanced technology, high-quality optical performance, and user-friendly features. Whether you're a beginner eager to peer into the wonders of the universe or an experienced observer at the peak of your skills, these telescopes offer a remarkable means to expand your cosmic horizons. With precision engineering and thoughtful design, Celestron continues to be a trusted name in the world of astronomy.