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What tools are used to study Eris?
Scientists use telescopes, specifically large ground-based telescopes and space telescopes like the Hubble Space Telescope, to study Eris. These telescopes allow them to observe Eris' size, shape, surface features, and composition.
How do ultraviolet telescopes work?
X-ray telescopes collect the X-rays that are emitted from the sun, stars, and super novas in space using a series of curved lenses and an electronic eye.
What type of electromagnetic radiation con not be detected by telescopes on earth?
Certain types of electromagnetic radiation, particularly gamma rays and most ultraviolet radiation, cannot be effectively detected by telescopes on Earth because they are absorbed by the Earth's atmosphere. This absorption prevents these high-energy photons from reaching the surface. To observe these wavelengths, scientists use space-based telescopes, which operate above the atmosphere.
How do you scientists explore the moon and planets in the solar system?
Telescopes, Space missions, probes all help scientists discover more about the moon.
Is the following sentence true or false Different space telescopes collect the same information about an object in space?
False. Different space telescopes are designed with varying instruments and technologies, which allows them to collect different types of information about objects in space. For example, some telescopes may be optimized for infrared observations, while others focus on ultraviolet or radio wavelengths, leading to diverse data and insights about the same astronomical object.
Why have scientists put ultraviolet infrared infrared gamma's and X ray telescopes in space?
they did it to get more detailed pictures of space
What are the two ways scientists explore space?
light telescopes and radio telescopes whether installed on earth or on space vehicles
How do the scientists explore outer space?
By using robot space probes and telescopes
Optical telescopes allow scientists to study what from objects in space?
Light
What do scientists use to see into space?
Scientists use telescopes to see into space. Telescopes can be on the ground or in space itself, and they gather light or other electromagnetic radiation from celestial objects to create images of distant planets, stars, and galaxies. Telescopes help scientists study the universe, learn about its origins, and explore its mysteries.
What tools do scientists use from space to study space Why can they only be used from space?
telescopes because they are meant to look into space
What tools do scientists use to examine deep space?
reflecting and refracting telescopes
What tools are used to study Eris?
Scientists use telescopes, specifically large ground-based telescopes and space telescopes like the Hubble Space Telescope, to study Eris. These telescopes allow them to observe Eris' size, shape, surface features, and composition.
What do scientists use to look into space?
Scientists use telescopes, both ground-based and space-based, to observe objects in space. These telescopes collect and detect various forms of electromagnetic radiation, including visible light, radio waves, and gamma rays, allowing scientists to study celestial objects such as stars, planets, and galaxies.
How do ultraviolet telescopes work?
X-ray telescopes collect the X-rays that are emitted from the sun, stars, and super novas in space using a series of curved lenses and an electronic eye.
What type of electromagnetic radiation con not be detected by telescopes on earth?
Certain types of electromagnetic radiation, particularly gamma rays and most ultraviolet radiation, cannot be effectively detected by telescopes on Earth because they are absorbed by the Earth's atmosphere. This absorption prevents these high-energy photons from reaching the surface. To observe these wavelengths, scientists use space-based telescopes, which operate above the atmosphere.
What do scientists use to study radio waves traveling through space?
Scientists use radio telescopes to detect and study radio waves traveling through space. These telescopes can collect and analyze radio signals from various celestial objects like stars, galaxies, and pulsars. By studying these radio waves, scientists can gain insights into the properties and behavior of objects in the universe.
