The main components of an astronomical telescope are: the main barrel, the objective lens, and the eyepiece. The function of the main lens barrel is: to fix the objective lens to keep it at a proper distance from the eyepiece; to prevent dust, moisture and stray light that interferes with image quality. The purpose of the objective lens is to gather light and present an image at the focal point. The purpose of the eyepiece is to magnify the image at the focal point of the objective and present it on your retina.

1.2 Types of Astronomical Telescopes

According to different optical structures, astronomical telescopes can be divided into many different types, but two are more commonly used: refracting astronomical telescopes (using optical lenses as objective lenses) and reflecting astronomical telescopes (using curved mirrors as objective lenses). Although the two can achieve the same effect, their optical structure is completely different.

Refracting astronomical telescopes: Refracting astronomical telescopes usually use an achromatic objective composed of two or more coated lenses. Generally speaking, it is very difficult to make a large-diameter (above 100mm) combined lens, so the diameter of common refracting astronomical telescopes does not exceed 100mm.

Reflective astronomical telescope: The objective of the reflective astronomical telescope is a curved mirror (primary mirror). A small flat mirror (secondary mirror) inclined at 45 degrees is placed in the optical path of the objective lens to divert the light reflected by the objective lens to the eyepiece on the side of the lens barrel. Reflective astronomical telescopes are relatively easy to achieve large clear apertures. This means that the reflective astronomical telescope can have a strong light-gathering ability, which can be used to observe dim deep space targets and to take astronomical photos.

1.3 Optical properties

Astronomical observers should choose different astronomical telescopes according to the purpose of observation. Generally speaking, popular astronomical observations are mostly comprehensive, and "one mirror can be used for multiple purposes" should be considered. When choosing an astronomical telescope, be sure to fully understand its basic optical properties. To evaluate the quality of a telescope, first look at its optical performance, and secondly look at its mechanical performance. The optical performance of an astronomical telescope is generally measured by the following indicators:

Effective aperture (D): refers to the effective diameter of the objective lens, usually represented by D; that is, the clear diameter of the telescope. The larger the diameter of the telescope, the stronger the light-gathering ability, and the more fainter celestial objects can be observed, which reflects the ability of the telescope to observe celestial objects. Therefore, if the economic conditions permit, enthusiasts should choose a larger-diameter telescope. . In the specification description of the astronomical telescope, it is usually marked.

Focal length (F): The focal length of a telescope mainly refers to the focal length of the objective lens. Similarly, in the specification description of the astronomical telescope, it should also be marked.