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8

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 sur-
rounding rings.

Alt-Azimuth Mounting: A telescope mounting using two inde-

pendent rotation axes allowing movement of the instru-
ment 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 mir-

ror; 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.

Arc minute: A unit of angular size equal to 1/60 of a degree.
Arc second: A unit of angular size equal to 1/3,600 of a 

degree (or 1/60 of an arc minute).

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 astro-
nomical 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 be measured. .

B -

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

c -

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 per-

fect alignment.

D -

Declination (DEC): The angular distance of a celestial body 

north or south of the celestial equator. It may be said to 
correspond to latitude on the surface of the Earth.

E -

Ecliptic: The projection of the Earth’s orbit on to the celes-

tial 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 instru-

ment is set upon an axis which is parallel to the axis of the 
Earth; the angle of the axis must be equal to the observ-
er’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.

J -

Jovian Planets: Any of the four gas giant planets that are at a 

greater distance form the sun than the terrestrial planets.

K -

Kuiper Belt: A region beyond the orbit of Neptune extending 

to about 1000 AU which is a source of many short period 
comets.

l -

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 trillion mi).

M -

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 

Summary of Contents for StarBlast AutoTracker 10140

Page 1: ...676 1343 E mail support telescope com Corporate Offices 831 763 7000 89 Hangar Way Watsonville CA 95076 Providing Exceptional Consumer Optical Products Since 1975 Orion StarBlast 114mm AutoTracker 101...

Page 2: ...ameter eyepieces a 25mm and a 10mm The longer the focal length i e the larger the number the lower the eyepiece power or magnification and the shorter the focal length i e the smaller the number the h...

Page 3: ...e or roof chimney and center it in the telescope s eyepiece The object should be at least 1 4 mile away Now turn on the EZ Finder II and look through it Without moving the main telescope use the EZ Fi...

Page 4: ...can see before determining the field of view you must calculate the magnification Using the example in the previous section we can determine the field of view using the same 25mm eyepiece The 25mm eye...

Page 5: ...e power is all you need to see them Visually they are too faint to reveal any of the color seen in long exposure photographs Instead they appear grayish And because of their low surface brightness the...

Page 6: ...til it is completely dry Then reinstall the mirror cell in the telescope optical tube with the screws To minimize the need to clean your telescope replace all lens covers once you have finished using...

Page 7: ...e optics are collimated Another even easier and more precise way to collimate your reflector is to use a laser collimator such as the Orion LaserMate II Deluxe collimator sold separately It comes with...

Page 8: ...ass If a group of three or more stars revolve around one another it is called a mul tiple system It is believed that approximately 50 percent of all stars belong to binary or multiple systems Systems...

Page 9: ...om the focal plane of the telescope to be in focus This means when you focus one parfocal eye piece all the other parfocal eyepieces in a particular line of eyepieces will be in focus Parsec The dista...

Page 10: ...10 Time Zones...

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Page 12: ...12 Sky Maps...

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Page 18: ...rranted instrument that proves to be defective provided it is returned postage paid Proof of purchase such as a copy of the original receipt is required This warranty is only valid in the country of p...

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