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The mirror is so big that NASA doesn't fit inside any rocket, so to launch it into space we must fold it and finally deploy it into orbit to become part of the James Webb Space Telescope. <\/p>\n
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The James Webb Space Telescope will be able to image the Universe in the deepest and most powerful way possible. This mirror has seven times more light-gathering power than Hubble's.<\/strong>. It is the most sophisticated that has been built to date. <\/p>\n <\/p>\n He James Webb Space Telescope<\/strong> (James Webb Space Telescope (JWST)), will be a space observatory developed by collaboration between approximately 17 countries. But its golden mirror is particularly prodigious<\/strong>.<\/p>\n <\/p>\n The sensitivity of a telescope It is directly related to the size of your mirror<\/strong>, which determines how much light the telescope can collect from the objects it observes. So the Northrop Grumman engineers behind the James Webb Space Telescope had to go to great lengths to build such a structure. <\/p>\n <\/p>\n They had to design a mirror with a diameter of 6.5 meters that can survive the launch of a rocket into space, orbit the Earth for 5 to 10 years and maintain its shape at temperatures close to 220 \u00baC. And, as said, it is not a single piece, but a series of 18 segments made of beryllium, a rare metal that is strong and light. Engineers coated them with a microscopically thin layer of pure gold for maximum reflectivity.<\/strong>.<\/p>\n <\/p>\nThe mirror that will reveal the universe<\/h2>\n
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