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Adaptive optics which change the shape of large mirrors during observation have helped to reduce atmospheric distortion.

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Do astronomers use ground-based X-ray telescopes?

Yes, astronomers use ground-based X-ray telescopes to study high-energy phenomena in space. These telescopes are typically located at high-altitude sites to reduce interference from Earth's atmosphere and are used to observe sources such as black holes, neutron stars, and supernova remnants.


Are telescopes and microscopes used by astronomers?

Telescopes are commonly used by astronomers to observe objects in space such as planets, stars, and galaxies. Microscopes are not typically used by astronomers as they are designed for studying very small objects on Earth, such as cells and microbes.


Why are telescopes observations better on the moon than on earth?

Observations from Earth-based telescopes are obscured by the atmosphere.


Why are some telescopes launched into space?

Some of the best telescopes are in orbit because the earth atmosphere distorts the light from distant stars,which is something scientist and astronomers would rather avoid.


Why do astronomers put telescopes in space?

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

Related Questions

How do astronomers solve problems using telescopes on earth?

Astronomers use telescopes on Earth to collect and analyze light from celestial objects, which allows them to study their properties, such as composition, distance, and motion. By employing various types of telescopes—optical, radio, and infrared—they can observe different wavelengths of light, revealing information that might not be visible to the naked eye. Advanced imaging and spectroscopy techniques enable astronomers to resolve complex problems, such as mapping star formation in galaxies or detecting exoplanets. Additionally, ground-based telescopes are often equipped with adaptive optics to compensate for atmospheric distortions, enhancing the clarity and detail of observations.


What kind of problems or developments do astronomers face?

One of the biggest problems facing astronomers is that they are Earth based and can not travel with anything besides their eyes and high powered telescopes through space to the stars and planets they study. More advances are being made every day, however, and by the time space travel becomes common our astronomers will have armed us with a wealth of knowledge.


Do astronomers use ground-based X-ray telescopes?

Yes, astronomers use ground-based X-ray telescopes to study high-energy phenomena in space. These telescopes are typically located at high-altitude sites to reduce interference from Earth's atmosphere and are used to observe sources such as black holes, neutron stars, and supernova remnants.


Why do astronomers currently prefer orbiting telescopes over earth based telescopes?

Orbiting telescopes are located in the sky, where it is not affected by the turbulence of the atmosphere, while ground-based telescopes are located on the ground, where the atmospheric turbulence (the moving of air) is greater. This is also the reason that some telescopes are built on mountains where the atmosphere is thinner and turbulence is smaller.


Are telescopes and microscopes used by astronomers?

Telescopes are commonly used by astronomers to observe objects in space such as planets, stars, and galaxies. Microscopes are not typically used by astronomers as they are designed for studying very small objects on Earth, such as cells and microbes.


Used by astronomers to study stars and planets?

Astronomers use telescopes to study stars and planets by capturing light from these celestial objects and analyzing it. They can gather data on the properties of stars and planets, such as their temperature, composition, and distance from Earth, to deepen our understanding of the universe. Telescopes come in various forms, such as optical telescopes, radio telescopes, and space telescopes like the Hubble Space Telescope.


Why are telescopes observations better on the moon than on earth?

Observations from Earth-based telescopes are obscured by the atmosphere.


Why do astronomers currently prefer orbiting telescopes over earth-base telescope?

Orbiting telescopes are located in the sky, where it is not affected by the turbulence of the atmosphere, while ground-based telescopes are located on the ground, where the atmospheric turbulence (the moving of air) is greater. This is also the reason that some telescopes are built on mountains where the atmosphere is thinner and turbulence is smaller.


Will New technologies allow astronomers to use X-ray telescopes on Earth's surface?

We had best hope the answer is 'no'. In order to use x-ray telescopes effectively from the earth's surface, you'd have to get rid of the atmosphere.


Why are some telescopes launched into space?

Some of the best telescopes are in orbit because the earth atmosphere distorts the light from distant stars,which is something scientist and astronomers would rather avoid.


Why did astronomers want to put a telescope into space?

Astronomers wanted to put a telescope into space to avoid the distortion caused by Earth's atmosphere, which can affect the quality of images taken by ground-based telescopes. By placing a telescope in space, astronomers can achieve sharper and clearer images of celestial objects.


What problems do astronomers have when looking through telescopes?

Astronomers may face challenges such as light pollution from surrounding urban areas, atmospheric turbulence which can distort images, and limited observation time due to weather conditions and the Earth's rotation. Additionally, technical issues with the telescope or instrumentation can also hinder observations.