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Why are radio telescopes often placed in valleys?
Radio telescopes are often placed in valleys because the surrounding hills and mountains shield them from radio interference generated by human activities. Valleys provide a natural barrier that helps to block out unwanted signals and enhance the sensitivity of the telescopes to detect faint radio signals from space. Additionally, valleys can also help to reduce the impact of wind and atmospheric disturbances on the telescopes, leading to clearer observations.
Which telescopes are placed on mountains?
Telescopes such as the Mauna Kea Observatory in Hawaii, the Very Large Telescope in Chile, and the Keck Observatory in Hawaii are placed on mountains for better visibility, reduced atmospheric interference, and clearer views of the night sky. Mountain locations are ideal for telescopes as they provide high altitudes, minimal light pollution, and stable atmospheric conditions for optimal astronomical observations.
where are telescopes kept?
Telescopes are typically housed in observatories, which can be located in remote areas to minimize light pollution and atmospheric disturbances. They may also be found in research institutions, universities, and even some private homes. Many modern telescopes, especially space telescopes like the Hubble, are placed in orbit to avoid Earth's atmospheric interference. Additionally, some portable telescopes are kept by amateur astronomers for personal use.
What type of telescopes would collect radiation from waves that are shorter than visible light?
Telescopes that collect radiation from waves shorter than visible light include ultraviolet (UV) and X-ray telescopes. These instruments are designed to detect high-energy electromagnetic radiation, which cannot penetrate the Earth's atmosphere. Therefore, they are often placed in space to observe celestial phenomena such as stars, galaxies, and black holes emitting UV and X-ray radiation. Examples include the Hubble Space Telescope for UV light and the Chandra X-ray Observatory for X-rays.
What are designed for observation of planets galaxies and outer space objects?
Celestial bodies are objects in the sky. The most commonly used instrument used to observe these bodies is the human eye. The next most common are the various telescopes including optical, radio, infrared and gamma ray. The sun is also a celestial body. A simple stick placed in the ground makes an interesting instrument for observing it. If you place a mark on the ground at the top of the sticks shadow at midday for a year (or whenever you remember to do it), an interesting figure is produced. Try it out.
How do you take pictures of other galaxies?
To take pictures of other galaxies, astronomers use telescopes equipped with sensitive cameras to capture light emitted by the distant galaxies. These telescopes are often placed in space or in remote locations to minimize interference from Earth's atmosphere and light pollution. The images captured are then processed and analyzed to study the properties and characteristics of the galaxies.
Is there a place in the universe that is so distant from stars or other celestial bodies that if one were to be placed there one would see nothing but blackness?
If there is then we, being right beside a star, cannot know of it. We appear to be surrounded by stars and galaxies.
Why would an X-ray telescope based on Earth not be able to detect X-Rays emitted distant stars?
Earth's atmosphere absorbs and scatters X-rays, preventing them from reaching the surface. To detect X-rays from distant stars, X-ray telescopes need to be placed in space above the atmosphere. This allows them to collect and study X-rays without interference.
Why are x-ray telescopes and gamma - ray telescopes in space?
The earth's atmosphere doesn't let these rays reach the ground, so the telescopes are placed in orbit where they can receive the rays.
Where do x ray telescopes have to be placed in order to view object in space?
Satellites
Why do optical astronomers place telescopes at the top of mountains while radio astronomers put their telescopes in valleys?
Optical telescopes are placed high to avoid having to look through the thickest part of the atmosphere. Radio telescopes are place in valleys to avoid the effects of man-made electrical noise in the telescope.
Why are big telescopes found on top of mountains?
The Earth's atmosphere provides interference to optical telescopes because the molecules in the air scatter and disrupt light. Many telescopes are placed at high elevation because the atmosphere is thinner and will cause less interference.
Why are radio telescopes often placed in valleys?
Radio telescopes are often placed in valleys because the surrounding hills and mountains shield them from radio interference generated by human activities. Valleys provide a natural barrier that helps to block out unwanted signals and enhance the sensitivity of the telescopes to detect faint radio signals from space. Additionally, valleys can also help to reduce the impact of wind and atmospheric disturbances on the telescopes, leading to clearer observations.
Which telescopes are placed on mountains?
Telescopes such as the Mauna Kea Observatory in Hawaii, the Very Large Telescope in Chile, and the Keck Observatory in Hawaii are placed on mountains for better visibility, reduced atmospheric interference, and clearer views of the night sky. Mountain locations are ideal for telescopes as they provide high altitudes, minimal light pollution, and stable atmospheric conditions for optimal astronomical observations.
where are telescopes kept?
Telescopes are typically housed in observatories, which can be located in remote areas to minimize light pollution and atmospheric disturbances. They may also be found in research institutions, universities, and even some private homes. Many modern telescopes, especially space telescopes like the Hubble, are placed in orbit to avoid Earth's atmospheric interference. Additionally, some portable telescopes are kept by amateur astronomers for personal use.
What type of telescopes would collect radiation from waves that are shorter than visible light?
Telescopes that collect radiation from waves shorter than visible light include ultraviolet (UV) and X-ray telescopes. These instruments are designed to detect high-energy electromagnetic radiation, which cannot penetrate the Earth's atmosphere. Therefore, they are often placed in space to observe celestial phenomena such as stars, galaxies, and black holes emitting UV and X-ray radiation. Examples include the Hubble Space Telescope for UV light and the Chandra X-ray Observatory for X-rays.
What are designed for observation of planets galaxies and outer space objects?
Celestial bodies are objects in the sky. The most commonly used instrument used to observe these bodies is the human eye. The next most common are the various telescopes including optical, radio, infrared and gamma ray. The sun is also a celestial body. A simple stick placed in the ground makes an interesting instrument for observing it. If you place a mark on the ground at the top of the sticks shadow at midday for a year (or whenever you remember to do it), an interesting figure is produced. Try it out.
