From ultraviolet to infrared (115 to 2500 nanometers).
The Hubble Space Telescope is a space-based telescope that observes astronomical objects from low Earth orbit. It is a reflector telescope with a 2.4-meter primary mirror and it can capture images in visible, ultraviolet, and near-infrared wavelengths.
HST is a Cassegrain reflecting telescope using the Ritchey–Chrétien design, with an aperture of 7.9' (2.4m). It has observational ability in the Ultraviolet, Infrared, and Visible light spectrums.
The Hubble Space Telescope collects a wide range of electromagnetic radiation, from ultraviolet to near-infrared wavelengths. It is designed to observe celestial objects in these ranges to provide detailed images and data for scientific analysis.
A refractor
-- A concave mirror gathers the light and bunches it up all in one place, called the "focus" of the mirror. There's a "real image" at that place, and you can capture it with a piece of ground glass, tissue, photo-film, or light-sensitive device at that place. -- A plane mirror doesn't gather anything. It just kind of sends the light back toward where it came from. It doesn't form any real image, and there's nothing to capture.
It is the one kind of telescope use in space. The Hubble Space telescope, is the one of the most common used-technology in space. The Hubble Space telescope was named after Edwin Hubble.
The Hubble Space Telescope is a space-based telescope that observes astronomical objects from low Earth orbit. It is a reflector telescope with a 2.4-meter primary mirror and it can capture images in visible, ultraviolet, and near-infrared wavelengths.
HST is a Cassegrain reflecting telescope using the Ritchey–Chrétien design, with an aperture of 7.9' (2.4m). It has observational ability in the Ultraviolet, Infrared, and Visible light spectrums.
The Hubble Space Telescope collects a wide range of electromagnetic radiation, from ultraviolet to near-infrared wavelengths. It is designed to observe celestial objects in these ranges to provide detailed images and data for scientific analysis.
The Hubble Space Telescope, or HST, or just the "Hubble" for most folks, is a Ritchey-Chrétien reflector telescope. It has a primary mirror to reflect and focus the incident light. A link is provided below.
The computer components in the Hubble telescope were custom-designed by IBM. It would be difficult to compare it to any consumer computer system.
That's a "reflecting" telescope.
The Hubble Space Telescope can capture high-resolution images of celestial objects, make precise measurements of astronomical phenomena, study the atmospheres of planets, and help determine the age and expansion rate of the universe through observations of distant galaxies and supernovae.
A telescope on Earth has two main limitations: the Earth is rotating, and the atmosphere disturbs light from stars. Once the Hubble is aimed at an object, it is held pointed at the object by on board gyroscopes. There is no obstruction, such as the atmosphere, between the object and the Hubble.
A single-mirror reflector.
Scientists typically use optical telescopes to observe and study celestial objects and phenomena in the universe. These telescopes gather and focus light to create detailed images of distant objects, helping scientists to learn more about the universe.
Well that depends on what kind of telescope you are talking about. I have a masters degree in space studies and I am currently working at Cambridge University so if you would like any help in your future, please be sure to email me at doomlad1232011@hotmail.ca I'am here to help!