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 axes 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.
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 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. .
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 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.
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 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.
E -
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
F -	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 lenSLTh divided by the aperture of the mirror or lens is termed the focal
	ratio.

60, 130, 80, 102, 114 specifications

The Nexstar series telescopes, including the Nexstar 114, 102, 80, 130, and 60 models, represent a significant advancement in amateur astronomy, offering a blend of portability, user-friendly design, and advanced technology. Each model is uniquely tailored to cater to different levels of enthusiasts, from beginners to more experienced stargazers.

The Nexstar 114 boasts a 114mm aperture and a focal length of 1000mm, making it ideal for detailed views of planets and deep-sky objects. Its reflector design allows for higher light gathering capability, ensuring bright and clear images. The telescope features a computerized GoTo mount, allowing users to locate and track celestial objects with ease. Its ergonomic design and lightweight build emphasize portability, making it a great choice for both backyard and remote observing.

Next in the lineup is the Nexstar 102, equipped with a 102mm aperture. This refractor telescope is known for its exceptional color correction and crisp images, particularly for planetary viewing. The 102 is user-friendly, with a sturdy mount and easy setup that appeals to newcomers. Its computerized tracking system simplifies locating celestial bodies, enhancing the observing experience.

The Nexstar 80, with its 80mm aperture, is incredibly compact and travel-friendly, perfect for those who want to explore the night sky on the go. Despite its size, it provides impressive views of the moon and bright planets. The telescope offers a lightweight design and quick setup features, making it an excellent starter telescope for kids and casual stargazers.

For those seeking a larger aperture, the Nexstar 130 features a 130mm aperture that delivers stunning views of a variety of celestial objects. With a focal length of 650mm, this compact telescope excels in observing both planets and deep-sky objects. Its GoTo mount provides automated tracking, making it a favorite among intermediate users who desire a bit more capability without extensive setup.

Finally, the Nexstar 60 is an entry-level model that combines affordability with efficiency. With a 60mm aperture, it’s lightweight and extremely portable, perfect for casual observations. It’s equipped with a simple mount and straightforward controls, making it an ideal choice for children or those new to astronomy.

Overall, the Nexstar series telescopes are designed with advanced optics, computerized mounts, and user-friendly interfaces, making them suitable for a wide range of users, from novices to more experienced astronomers. Whether you are looking for ease of portability or more advanced features, there is a Nexstar model tailored to meet your needs and enhance your stargazing experience.