There are many. But Hubble is the only one operating in the visible light wavelengths, and without a specific long-term mission.
The Spitzer Space Telescope operates in the infrared wavelengths while the Chandra X-ray observatory operates in the X-ray wavelengths. The Swift telescopes searches for gamma ray radiation in space.
Herschell, Planck and Kepler are recently launched telescopes. All three have specific missions.
A perfect example of a telescope in space would be the Hubble Telescope. It has many advantages over earth-bound telescopes. From the vantage point of space, a telescope does not have interference from our atmosphere. Dust particles, debris, and elements in our atmosphere all can inhibit difficulties in viewing the universe from a telescope on earth. A telescope in space takes these problems out of the equation. You can Google "hubble pics" and easily find hundreds of thousands of images that the Hubble has captured. These pictures have lead to scientific insights and breakthroughs that have changed the way we see ourselves, and our place in the universe. And still today, it provides us with new views that pique our curiosity, and bring us to exciting new information.
Like all satellites, the orbit depends on the purpose of the telescope.
The Hubble Space Telescope orbits in "low Earth orbit", a little higher than the International Space Station does but still within range of the Shuttle. This is because the Hubble was designed for easy maintenance and parts replacement by Shuttle astronauts. in fact, three Shuttle missions have been dedicated to performing maintenance and upgrades of the Hubble, including one just last year.
The Spitzer Space Telescope does not orbit the Earth at all; it is in orbit around the Sun, trailing a few million miles behind the Earth. Spitzer does not observe visible light, but infrared; it is a "heat" telescope. This selection of orbit keeps the Spitzer telescope well away from the hot Earth, allowing its temperature to decrease to about 40 degrees Kelvin, which reduces the load on the cryogenic mechanisms.
It's so that a clearer image of the cosmos can be achieved, since a telescope put into space will be above the atmosphere of the earth. The earths atmosphere distorts the light received from objects in space, dust and atmospheric gas interfere with the image (this is why earth based telescopes are usually placed as high up as possible, on mountain tops).
Telescopes like the Hubble
I'm not aware of any telescopes that begin with the letter "Hub." Telescopes often have names like Hubble, which is named after astronomer Edwin Hubble, or Hubbell, which may be a variation or misspelling of the Hubble Space Telescope.
The Hubble Space Telescope was launched from the space shuttle Discovery on April 24, 1990. The mission was designated STS-31.
Telescopes like Hubble produce more detailed images than Earth-based telescopes because they are positioned above Earth's atmosphere, which can distort and blur images. This allows Hubble to capture sharper and clearer images of celestial objects. Additionally, Hubble's location in space enables it to observe wavelengths of light that are absorbed by Earth's atmosphere.
Yes, telescopes in space, such as the Hubble Space Telescope, are able to capture extremely clear images of objects in deep space. These telescopes are not affected by the distortion caused by Earth's atmosphere, resulting in sharper and more detailed images compared to ground-based telescopes.
Edwin Hubble
hubble space station
The Hubble spacecraft has found more anbout the stars and planets more clearly then the others saw from other telescopes.
The main difference between Hubble Space Telescopes and other telescopes is the fact that the Hubble is placed in outer space where it can observe without the distortion of the Earth's atmosphere.
Telescopes like the Hubble
I'm not aware of any telescopes that begin with the letter "Hub." Telescopes often have names like Hubble, which is named after astronomer Edwin Hubble, or Hubbell, which may be a variation or misspelling of the Hubble Space Telescope.
Because light is absorbed and disturbed as it passes through air ... effects that ground-based telescopes have to live with but Hubble doesn't.
Yes there are there are many different ones, but here's just a few Herschell, planck, and Kelpler. They were recently sent and have a specific mission.
The Hubble Space Telescope is not affected by atmospheric distortion, providing clearer images than ground-based telescopes. Ground-based telescopes have the advantage of being easier to upgrade and maintain than a space-based telescope like the Hubble.
All major astronomical telescopes are equipped with spectrographs, including the Hubble and Spitzer Space Telescopes.
The Hubble Space Telescope was launched from the space shuttle Discovery on April 24, 1990. The mission was designated STS-31.
Telescopes like Hubble produce more detailed images than Earth-based telescopes because they are positioned above Earth's atmosphere, which can distort and blur images. This allows Hubble to capture sharper and clearer images of celestial objects. Additionally, Hubble's location in space enables it to observe wavelengths of light that are absorbed by Earth's atmosphere.