Type of telescopes - optical terms - refractive telescope, reflector telescope

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Types of Telescopes / Terms

The diagram at left show the differences between the two main types of telescopes:
Refractor and Reflector. The Refractor (Galileo) telescope uses an objective lens that bends light (refraction) for delivery to the eyepiece. The Reflector (Newton) telescope uses a mirror to collect the light, which it delivers to the eyepiece.
All optical instruments are measured and identified by two numbers.
Aperture:
The width of the objective lens or mirror. The greater the width, the greater the amount of light that can be collection. This affects both the brightness and sharpness of the image.
Focal Length:
The distance from the optical center of the objective lens to the optical center of the eyepiece. The longer the distance, the greater the amount of the magnification.
Other Variables:
The amount of the magnification can be significantly altered by changing the eyepiece and inserting or removing a Barlow lens.
(See below).

Telescope Characteristics / Optical Terms

What qualities should you look for in a telescope? Most people will think it is the amount of magnification, but the astronomer knows better. What good is a large image if it fuzzy or so faint that it can barely be seen?
Aperture (diameter of the objective lens or mirror)
This is the single most important factor in choosing a telescope. It refers to the size of the opening used to collect light and the primary function of all telescopes is to collect light. Refractor telescopes use a lens; reflector telescopes use a mirror. In both cases, the larger the aperture, the more light it can collect. This results in a brighter image, greater detail, and image quality.
Resolution
This is the ability of a telescope to render detail, the higher the resolution the finer the detail. The larger the aperture, the greater the resolution.
Focal Length
This is the distance in an optical system from the lens (or mirror) to the point where the instrument is in focus.
Magnification
A telescope is an optical system. The aperture collects the light and brings it into focus. The image is then magnified by the eyepiece. The combination is what yields the amount of magnification. To determine the magnification, divide the focal length of the telescope by the focal length of the eyepiece. For example, if your telescope has a focal length of 500mm and if you use it with a 4mm focal length, the magnification will be 500 divided by 4, or 125, which means 125 power magnification.

Chromatic Aberration
Newton's study of optics and light recognized that a lens is a circular prism. Refraction - the ability of a prism to bend light - resulted in different colors of light bending by different degrees. This resulted in the image of a bright object appearing with a ring of fuzzy colors around it. This "chromatic aberration," or fault with colors was the inherent defect that led him to develop the refractor telescope. Modern technology has solved this problem by applying special coatings to lens. Today, such coatings are applied to all quality lens.