Celestron 93507 manual Appendix B Glossary of Terms

Page 54

Appendix B - Glossary of Terms

A-

 

Absolute magnitude

The apparent magnitude that a star would have if it were observed from a standard distance of 10

 

parsecs, or 32.6 light-years. The absolute magnitude of the Sun is 4.8. at a distance of 10 parsecs, it

 

would just be visible on Earth on a clear moonless night away from surface light.

Airy disk

The apparent size of a star's disk produced even by a perfect optical system. Since the star can never

 

be focused perfectly, 84 per cent of the light will concentrate into a single disk, and 16 per cent into

 

a system of surrounding rings.

Alt-Azimuth Mounting

A telescope mounting using two independent rotation axis allowing movement of the instrument in

 

Altitude and Azimuth.

Altitude

In astronomy, the altitude of a celestial object is its Angular Distance above or below the celestial

 

horizon.

Aperture

the diameter of a telescope's primary lens or mirror; the larger the aperture, the greater the

 

telescope's light-gathering power.

Apparent Magnitude

A measure of the relative brightness of a star or other celestial object as perceived by an observer on

 

Earth.

Arcminute

A unit of angular size equal to 1/60 of a degree.

Arcsecond

A unit of angular size equal to 1/3,600 of a degree (or 1/60 of an arcminute).

Asterism

A small unofficial grouping of stars in the night sky.

Asteroid

A small, rocky body that orbits a star.

Astrology

The pseudoscientific belief that the positions of stars and planets exert an influence on human

 

affairs; astrology has nothing in common with astronomy.

Astronomical unit (AU)

The distance between the Earth and the Sun. It is equal to 149,597,900 km., usually rounded off to

 

150,000,000 km.

Aurora

The emission of light when charged particles from the solar wind slams into and excites atoms and

 

molecules in a planet's upper atmosphere.

Azimuth

The angular distance of an object eastwards along the horizon, measured from due north, between

 

the astronomical meridian (the vertical line passing through the center of the sky and the north and

 

south points on the horizon) and the vertical line containing the celestial body whose position is to

B -

be measured. .

 

Binary Stars

Binary (Double) stars are pairs of stars that, because of their mutual gravitational attraction, orbit

 

around a common Center of Mass. If a group of three or more stars revolve around one another, it is

 

called a multiple system. It is believed that approximately 50 percent of all stars belong to binary or

 

multiple systems. Systems with individual components that can be seen separately by a telescope are

 

called visual binaries or visual multiples. The nearest "star" to our solar system, Alpha Centauri, is

 

actually our nearest example of a multiple star system, it consists of three stars, two very similar to

C -

our Sun and one dim, small, red star orbiting around one another.

 

Celestial Equator

The projection of the Earth's equator on to the celestial sphere. It divides the sky into two equal

 

hemispheres.

Celestial pole

The imaginary projection of Earth's rotational axis north or south pole onto the celestial sphere.

Celestial Sphere

An imaginary sphere surrounding the Earth, concentric with the Earth's center.

Collimation

The act of putting a telescope's optics into perfect alignment.

D -

 

Declination (DEC)

The angular distance of a celestial body north or south of the celestial equator. It may be said to

E -

correspond to latitude on the surface of the Earth.

 

Ecliptic

The projection of the Earth's orbit on to the celestial sphere. It may also be defined as "the apparent

 

yearly path of the Sun against the stars".

Equatorial mount

A telescope mounting in which the instrument is set upon an axis which is parallel to the axis of the

 

Earth; the angle of the axis must be equal to the observer's latitude.

F -

 

Focal length

The distance between a lens (or mirror) and the point at which the image of an object at infinity is

 

brought to focus. The focal length divided by the aperture of the mirror or lens is termed the focal

 

ratio.

54

Image 54
Contents Page Introduction Quick Setup Assembly Telescope Maintenance Appendix E Time Zone MAP SKY Maps Observational Data Sheet Page Center Leg Brace Tension KnobLeg Finderscope Alignment Star Control Panel Auxiliary PortSetting Up The Tripod Assembling the NexStarAdjusting the Tripod Height Attaching the NexStar to the TripodAttaching the Hand Control 3a Attaching the Hand Control for NexStar 8 GPSAdjusting the Clutches Star DiagonalEyepiece Finderscope Installation FinderscopePowering the NexStar Aligning the FinderscopeNexStar Hand Control Alignment Procedures Hand Control OperationFew Words on GPS GPS AlignmentAuto-Align HelpfulHint Two Star Alignment Quick-AlignHelpful Hint EQ North / EQ South Alignment NexStar Re-AlignmentSelecting an Object Object CatalogFinding Planets Slewing to an ObjectTour Mode Direction ButtonsRate Button EQ North Setup ProceduresAlt-Az EQ SouthScope Setup Features Utility Features MenuHelpful Hint NexStar GPS Menu Alignment ListImage Orientation Focusing Calculating MagnificationDetermining Field of View General Observing Hints Celestial Coordinate System Celestial sphere seen from the outside showing R.A. and DECMotion of the Stars Polar Alignment with optional Wedge Finding the North Celestial PoleWedge Align Declination Drift Method of Polar Alignment DefinitionPage Lunar Observing Hints Observing the MoonObserving the Planets Planetary Observing HintsSeeing Conditions Observing the SunObserving Deep Sky Objects TransparencySeeing Short Exposure Prime Focus Photography Lunar Phase ISO Crescent Quarter Eyepiece ProjectionFull Long Exposure Prime Focus Photography Planet ISO Moon Mercury Venus Mars Jupiter SaturnPeriodic Error Correction PEC Using Periodic Error CorrectionTerrestrial Photography CCD Imaging MeteringReducing Vibration Fastar Compatible Optical System Fastar F/2 Imaging With Reducer/CorrectorPin out diagram for Autoguider port Auto GuidingCare and Cleaning of the Optics CollimationCollimated telescope Should appear Super Modified Achromatic SMA Eyepieces 1 ¼ Page Page Mechanical Specifications Optical Specification NexStar 8 GPS NexStar 11 GPSElectronic Specifications Software SpecificationsAppendix B Glossary of Terms Page Page Appendix C Longitudes Latitudes Georgia Minnesota Rhode Island Canada Description PC Command Ascii Hand Control Response Communication ProtocolSend a Slow-Goto Command Through RS232 To The Hand Control Reset The Position Of Azm Or AltSend Any Track Rate Through RS232 To The Hand Control Appendix E Maps of Time Zones Page Page Page Page Page Page Page Observational Data Sheet Celestron TWO Year Warranty

93507 specifications

The Celestron 93507 is a powerful and versatile telescope designed for both amateur and seasoned astronomers. This model combines advanced technologies and practical features to deliver an enriching stargazing experience. One of the standout characteristics of the Celestron 93507 is its robust optical design. It features a 90mm aperture, allowing users to capture bright, detailed views of celestial objects, from the lunar surface to distant galaxies. The telescope employs a Maksutov-Cassegrain optical design, known for its compact form factor and high-quality images, free from chromatic aberration.

In terms of usability, the Celestron 93507 is designed with an easy setup in mind. It comes equipped with a solid mount that provides stability during observation. The mount also includes slow-motion controls, facilitating smooth panning across the night sky, allowing astronomers to track celestial objects effortlessly. This feature is particularly beneficial for viewing planets and other fast-moving astronomical phenomena.

Furthermore, the telescope comes with high-grade optics, including fully coated glass elements that enhance light transmission and ensure sharper images with higher contrast. It includes two eyepieces — a low-power 25mm and a high-power 10mm — that provide versatility in viewing options, whether you’re looking at wide expanses of the night sky or zooming in on close details of lunar craters.

Additionally, the Celestron 93507 is compatible with various Celestron accessories, including solar filters and advanced eyepieces, enabling users to expand their observational capabilities. The telescope's compact design makes it portable, perfect for amateur astronomers who enjoy taking their telescope for trips to dark-sky locations.

Another noteworthy feature of this telescope is its durability. Built to withstand the rigors of outdoor usage, the materials used in the Celestron 93507 are resistant to wear and tear, ensuring that users can enjoy stargazing for years.

Overall, the Celestron 93507 is a well-rounded instrument that combines advanced optical technology, user-friendly features, and portability, making it an excellent choice for anyone looking to explore the wonders of the universe. Whether you're interested in planetary observation, lunar details, or deep-sky wonders, this telescope offers the tools necessary to make your astronomical explorations rewarding.