telescope$82075$ - traduzione in greco
Diclib.com
Dizionario ChatGPT
Inserisci una parola o una frase in qualsiasi lingua 👆
Lingua:

Traduzione e analisi delle parole tramite l'intelligenza artificiale ChatGPT

In questa pagina puoi ottenere un'analisi dettagliata di una parola o frase, prodotta utilizzando la migliore tecnologia di intelligenza artificiale fino ad oggi:

  • come viene usata la parola
  • frequenza di utilizzo
  • è usato più spesso nel discorso orale o scritto
  • opzioni di traduzione delle parole
  • esempi di utilizzo (varie frasi con traduzione)
  • etimologia

telescope$82075$ - traduzione in greco

TYPE OF OPTICAL TELESCOPE
Refractor; Refractor telescope; Refractive telescope; Galilean Telescope; Refracting Telescope; Galilean telescope; Keplerian telescope; Keplerian Telescope; Refractor Telescope; Kepler refractor; Galileo Telescope; Galileo's telescope; Refractory telescope
  • The Apochromatic lens usually comprises three elements that bring light of three different frequencies to a common focus
  • The Yerkes Great refractor mounted at the 1893 World's Fair in Chicago; the tallest, longest, and biggest aperture refractor up to that time.
  • publisher=Auctor}}</ref>
  • This 12 inch refractor is mounted in a dome on a mount that matches the Earth's rotation
  • Astronaut trains with camera with large lens
  • Vienna University Observatory]]
  • Touristic telescope pointed to Matterhorn in Switzerland
  • The Greenwich 28-inch refractor is a popular tourist attraction in 21st century London
  • Alvan Clark polishes the big Yerkes achromatic objective lens, over 1 meter across, in 1896.
  • in}} refractor, at [[Yerkes Observatory]], the largest achromatic refractor ever put into astronomical use (photo taken on 6 May 1921, as Einstein was visiting)
  • A 200 mm diameter refracting telescope at the [[Poznań Observatory]]

telescope      
v. θέτω το ένα μέρος εντός του άλλου ώς εις σωλήνα τηλεσκόπιου
field glass         
  • left
  • Porro type, external eyepiece bridge central-focusing binoculars with a rotating diopter on the right eyepiece allowing to adjust refractive differences between the viewer's left and right eyes
  • Galilean binoculars
  • 1}}
  • Binoculars with red-colored multicoatings
  • Double Porro prism design
  • A simulated view of how the [[Andromeda Galaxy]] (Messier 31) would appear in a pair of binoculars
  • Binoculars with adjustable interpupillary distance set for about 63 mm
  • Vector series laser rangefinder 7×42 binoculars can measure distance and angles and also features a 360° digital compass and class 1 eye safe filters
  • url-status=live }}</ref>
  • The small exit pupil of a 25×30 telescope and large exit pupils of 9×63 binoculars suitable for use in low light
  • A quarter-wavelength (λ) thick anti-reflection coating, which leads to destructive interference
  • Schmidt–Pechan "roof" prism design
  • Independent focusing binoculars as used by the British military
  • [[Tower Optical]] coin-operated binocular tower viewers
  • US Naval ship 'Big eyes' 20×120 binoculars in fixed mounting
  • 25&nbsp;×&nbsp;150 binoculars adapted for astronomical use
  • 7×50 marine binoculars with dampened [[compass]]
PAIR OF TELESCOPES MOUNTED SIDE-BY-SIDE
Field glass; Binocular instrument; Field Glasses; Field glasses; Binocular Instrument; Binocs; Binocular telescope; Prism binoculars; Phase correction coating; Binoc; Periscope binoculars
τηλεσκόπιο
field glasses         
  • left
  • Porro type, external eyepiece bridge central-focusing binoculars with a rotating diopter on the right eyepiece allowing to adjust refractive differences between the viewer's left and right eyes
  • Galilean binoculars
  • 1}}
  • Binoculars with red-colored multicoatings
  • Double Porro prism design
  • A simulated view of how the [[Andromeda Galaxy]] (Messier 31) would appear in a pair of binoculars
  • Binoculars with adjustable interpupillary distance set for about 63 mm
  • Vector series laser rangefinder 7×42 binoculars can measure distance and angles and also features a 360° digital compass and class 1 eye safe filters
  • url-status=live }}</ref>
  • The small exit pupil of a 25×30 telescope and large exit pupils of 9×63 binoculars suitable for use in low light
  • A quarter-wavelength (λ) thick anti-reflection coating, which leads to destructive interference
  • Schmidt–Pechan "roof" prism design
  • Independent focusing binoculars as used by the British military
  • [[Tower Optical]] coin-operated binocular tower viewers
  • US Naval ship 'Big eyes' 20×120 binoculars in fixed mounting
  • 25&nbsp;×&nbsp;150 binoculars adapted for astronomical use
  • 7×50 marine binoculars with dampened [[compass]]
PAIR OF TELESCOPES MOUNTED SIDE-BY-SIDE
Field glass; Binocular instrument; Field Glasses; Field glasses; Binocular Instrument; Binocs; Binocular telescope; Prism binoculars; Phase correction coating; Binoc; Periscope binoculars
διόπτρες

Definizione

Refractor
·noun Anything that refracts.
II. Refractor ·noun A refracting telescope, in which the image to be viewed is formed by the refraction of light in passing through a convex lens.

Wikipedia

Refracting telescope

A refracting telescope (also called a refractor) is a type of optical telescope that uses a lens as its objective to form an image (also referred to a dioptric telescope). The refracting telescope design was originally used in spyglasses and astronomical telescopes but is also used for long-focus camera lenses. Although large refracting telescopes were very popular in the second half of the 19th century, for most research purposes, the refracting telescope has been superseded by the reflecting telescope, which allows larger apertures. A refractor's magnification is calculated by dividing the focal length of the objective lens by that of the eyepiece.

Refracting telescopes typically have a lens at the front, then a long tube, then an eyepiece or instrumentation at the rear, where the telescope view comes to focus. Originally, telescopes had an objective of one element, but a century later, two and even three element lenses were made.

Refracting telescope is a technology that has often been applied to other optical devices, such as binoculars and zoom lenses/telephoto lens/long-focus lens.