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β 15y agoHUBBLE
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β 15y agoThe telescope sent into space to capture sharper and clearer images of planets, stars, and deep space is called the Hubble Space Telescope.
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β 11y agocoronograph
A space telescope produces clearer images because it is above Earth's atmosphere, which can distort and blur light from space. By being in space, the telescope eliminates the atmospheric turbulence that can affect the quality of images produced by Earth-based telescopes. This allows space telescopes to capture sharper and more detailed images of celestial objects.
The diameter of the telescope aperture determines how much light the telescope can gather, which impacts the brightness and detail of the images it can produce. A larger aperture means more light can be collected, allowing for clearer and sharper views of celestial objects.
An earth-based telescope has to contend with atmospheric turbulence, which can distort and blur images. This is not a concern for a space-based telescope, which operates above Earth's atmosphere and can provide clearer images.
Astronomer Rodger Thompson said that adaptive optics is fundamentally altering our view of the universe. This technology corrects for distortions caused by the Earth's atmosphere, delivering sharper, more detailed images of celestial objects. It has revolutionized astronomy by enabling clearer observations of stars, planets, and other distant objects.
it allowed astronomers to see clearer images without distorted or lost colors.
A space telescope produces clearer images because it is above Earth's atmosphere, which can distort and blur light from space. By being in space, the telescope eliminates the atmospheric turbulence that can affect the quality of images produced by Earth-based telescopes. This allows space telescopes to capture sharper and more detailed images of celestial objects.
The (GMT) Giant Magellan Telescope .
The diameter of the telescope aperture determines how much light the telescope can gather, which impacts the brightness and detail of the images it can produce. A larger aperture means more light can be collected, allowing for clearer and sharper views of celestial objects.
So they can get clearer images
Astronomer Rodger Thompson said that adaptive optics is fundamentally altering our view of the universe. This technology corrects for distortions caused by the Earth's atmosphere, delivering sharper, more detailed images of celestial objects. It has revolutionized astronomy by enabling clearer observations of stars, planets, and other distant objects.
yes, because it doesnt have the atmosphere in the way, the atmosphere distorts the images taken by ground based-telescopes because of the refraction of light. The hubbles telescope can provide clearer and more accurate images without this barrier in the way.
Because of the atmosphere. The atmosphere distorts light (this is also why stars 'twinkle'), where as the HST, free from this, faces no interference.
Newton's invention of the reflecting telescope improved the quality and resolving power of telescopes, allowing astronomers to see fainter and more distant celestial objects with greater clarity. This advancement revolutionized observational astronomy and laid the foundation for future telescope designs.
it allowed astronomers to see clearer images without distorted or lost colors.
It has allowed astronomers to find out more about the universe, creating clearer more detailed images, also allowing them to look further into the universe to see things such as distant galaxies, stars and planets.
It has allowed astronomers to find out more about the universe, creating clearer more detailed images, also allowing them to look further into the universe to see things such as distant galaxies, stars and planets.
Because it doesn't have to look through any air to see the things it wants to see.