Because the atmosphere is not exactly transparent. It looks that way to us because our eyes are designed to see the wavelengths that move easiest through it. However, air molecules tend to warp, absorb, or otherwise limit our ability to see things in space clearly. The Hubble, and other space-based telescopes, are above the limiting influence of our atmosphere, and as such can see the light from distant objects exactly as they arrive.
The Hubble Space Telescope can provide clearer images than telescopes on Earth due to two main reasons: it is above Earth's atmosphere, which can distort and block light reaching ground-based telescopes, and its position in space allows it to capture light without the interference of atmospheric effects like light pollution and turbulence. These factors contribute to Hubble's ability to produce high-resolution images of celestial objects with great clarity.
The Hubble Space Telescope is in orbit around Earth to avoid atmospheric distortion that can affect the quality of its observations. Being above the atmosphere allows Hubble to capture clearer images of the universe without interference from air turbulence.
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 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.
Even in excellent weather, telescopes on Earth are affected by the thickness of the atmosphere. This causes the air to be slightly refractive, meaning that the air bents the light as it comes through the atmosphere, and distorts the image that we are trying to see.The Hubble Space Telescope is much smaller than many terrestrial telescopes, but because there is no atmospheric distortion, the images can be far clearer and can be magnified more.
The telescope sent into space to capture sharper and clearer images of planets, stars, and deep space is called the Hubble Space Telescope.
The Hubble Space Telescope can provide clearer images than telescopes on Earth due to two main reasons: it is above Earth's atmosphere, which can distort and block light reaching ground-based telescopes, and its position in space allows it to capture light without the interference of atmospheric effects like light pollution and turbulence. These factors contribute to Hubble's ability to produce high-resolution images of celestial objects with great clarity.
The Hubble Space Telescope is in orbit around Earth to avoid atmospheric distortion that can affect the quality of its observations. Being above the atmosphere allows Hubble to capture clearer images of the universe without interference from air turbulence.
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.
Because of the atmosphere. The atmosphere distorts light (this is also why stars 'twinkle'), where as the HST, free from this, faces no interference.
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.
Adaptive optics technology can enable ground-based telescopes to achieve images as sharp as those from the Hubble Space Telescope. This technology involves using mirrors that can change shape to compensate for the distortions caused by Earth's atmosphere, allowing for clearer and more detailed images.
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.
Yes, the Hubble Space Telescope was built to observe objects in space without the distortion caused by Earth's atmosphere. By being located above Earth's atmosphere, the Hubble Telescope can capture clearer and more detailed images of celestial objects.
Even in excellent weather, telescopes on Earth are affected by the thickness of the atmosphere. This causes the air to be slightly refractive, meaning that the air bents the light as it comes through the atmosphere, and distorts the image that we are trying to see.The Hubble Space Telescope is much smaller than many terrestrial telescopes, but because there is no atmospheric distortion, the images can be far clearer and can be magnified more.
The Hubble Telescope uses both mirrors and lenses to focus on images.
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.