Elescope, Erminology – Zhumell ECLIPSE 114 User Manual

T

ELESCOPE

T

ERMINOLOGY

O

BJECTIVE

- The objective is the front lens of a telescope. The measurement listed for objec-

tive lenses is the diameter of the lens. A larger objective allows more light to enter a telescope

and provides a brighter image. The objective diameter is also sometimes referred to as the

aperature of a telescope.

F

OCAL

L

ENGTH

- The focal length of a telescope is the distance from the point where light

enters a telescope (the objective) to the point where the image is in focus. In telescopes

with the same size objective, a longer focal length will provide higher magnification and a

smaller field of view.

M

AGNIFICATION

- The magnification of a telescope is determined by the relationship between

the focal length of the telescope and the focal length of the eyepiece used. The greater the

difference in focal lengths, the greater the magnification. A telescope has a maximum use-

ful magnification of about 60 times the diameter of the objective in inches. Magnification

beyond the maximum useful magnification will provide dim, low-contrast images.
F

OCAL

R

ATIO

- The focal ratio of a telescope describes the ratio between the focal length

and objective size of a telescope. Visually, the smaller the focal ratio (also called f-stop) of a

telescope, the wider the field of view. Photographically, the lower the f-stop, the shorter the

exposure time needed to capture an object on film.
L

IMITING

M

AGNITUDE

- The limiting magnitude of a telescope describes the faintest object

you can see with a telescope. The magnitude of a star describes its brightness. The larger the

magnitude of an object, the fainter it appears to be. The brightest stars have a magnitude

of 0 or less.

R

ESOLVING

P

OWER

- The resolving power, or Dawes’ Limit, of a telescope is the ability

to view closely spaced objects through a telescope. The resolving power of a telescope is

measured in seconds of arc. The smaller the resolving power, the better you will be able to

separate binary stars when viewing through your telescope.

A

BERRATION

- Aberrations are degradations in image which may occur due to optical system

design or improper alignment of optical system components. The most common types

of aberration are chromatic aberration, spherical abberation, coma, astigmatism, and field

curvature.

C

OLLIMATION

- Collimation is the alignment of optical components within an optical system.

Improper collimation will distort an image and may result in abberations present in the im-

age. Most reflector telescopes have collimation adjustments which can be made in order to

reduce aberrations and image distortion.