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The Earth's atmosphere is about 120 miles thick and anything we see from the surface of the Earth is distorted by the water vapor and debris that is in the air. If you are in space you do not have this distortion. The Hubble Telescope is a good example of space based telescopes.Scientists have put telescopes in space to avoid interference by the atmosphere.SOURCE:-Page 560 of Holt Science & Technology Earth Science-Chapter 18-Studying Space-Section 2- Telescopes-Optical Telescopes in Space
Adaptive Optics/AO.
The Hubble space telescope uses optical sensors to gather data of distant objects; as it is located outside of the Earths atmosphere it is not subject to the distortions associated with terrestrial telescopes. The Chandra (X-ray observatory) gathers x-ray data about the universe; again, this cannot be achieved with terrestrial based observatory instruments
Yes, that is the whole idea of putting a telescope up into space.
They're at high elevation - to escape the atmospheric disturbance caused by natural and man-made heat 'currents'. Shifting heat currents cause images collected by telescopes to distort. Placing them at higher altitudes minimises the effect, so the images are clearer. Additionally, being high up, they're away from towns and cities, which vastly reduces the amount of 'light pollution' created by man-made light sources.
The Earth's atmosphere is about 120 miles thick and anything we see from the surface of the Earth is distorted by the water vapor and debris that is in the air. If you are in space you do not have this distortion. The Hubble Telescope is a good example of space based telescopes.Scientists have put telescopes in space to avoid interference by the atmosphere.SOURCE:-Page 560 of Holt Science & Technology Earth Science-Chapter 18-Studying Space-Section 2- Telescopes-Optical Telescopes in Space
Yes. In fact, there are even telescopes that are stationed already in space.
Adaptive Optics/AO.
Hubble being in space does not have a problem of seeing which is caused by atmospheric blurring and thus can observe light at more wavelengths. Its only limitation is by diffraction in its optics
radio telescopes
The Hubble space telescope uses optical sensors to gather data of distant objects; as it is located outside of the Earths atmosphere it is not subject to the distortions associated with terrestrial telescopes. The Chandra (X-ray observatory) gathers x-ray data about the universe; again, this cannot be achieved with terrestrial based observatory instruments
The Hubble space telescope uses optical sensors to gather data of distant objects; as it is located outside of the Earths atmosphere it is not subject to the distortions associated with terrestrial telescopes. The Chandra (X-ray observatory) gathers x-ray data about the universe; again, this cannot be achieved with terrestrial based observatory instruments
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Outside the atmosphere the telescope has no interference, precisely by the atmosphere. The telescope can get a clearer picture, and see certain wavelengengths that don't reach Earth.Outside the atmosphere the telescope has no interference, precisely by the atmosphere. The telescope can get a clearer picture, and see certain wavelengengths that don't reach Earth.Outside the atmosphere the telescope has no interference, precisely by the atmosphere. The telescope can get a clearer picture, and see certain wavelengengths that don't reach Earth.Outside the atmosphere the telescope has no interference, precisely by the atmosphere. The telescope can get a clearer picture, and see certain wavelengengths that don't reach Earth.
The atmosphere of earth tends to distort images from space. Since Hubble operates outside earths atmosphere, the images it can produce are much more clear.
Yes, that is the whole idea of putting a telescope up into space.
This usually refers to a telescope that is actually located outside of the earths atmosphere. as opposed to a telescope designed to view outer space (which is all telescopes to my knowledge).