- NASA has successfully finished tensioning the first three layers of the
James Webb ’s sunshield. - The final two layers are left after which the sunshield will be fully deployed.
- The sunshield is highly important as it will protect the instruments inside from the sun’s radiation and other sources of light and heat.
The
NASA began tensioning the first layer of the sunshield on Monday, with the second and third layers following subsequently. These three layers are the closest to the sun, and the total tensioning process took the team five and a half hours to complete. Tensioning for the final two layers of the Webb’s sunshield will take place tomorrow.
“The membrane tensioning phase of sunshield deployment is especially challenging because there are complex interactions between the structures, the tensioning mechanisms, the cables and the membranes,” said James Cooper, NASA’s Webb sunshield manager, based at Goddard Space Flight Center.
After the tensioning of the final two layers, the sunshield will be fully deployed. This five-layer sunshield is important because it will protect the telescope from the sun’s radiation. Since the James Webb telescope has infrared light observations, the instruments inside the telescope have to be kept extremely cold. The sunshield will not only protect it from the sun’s radiation but also other sources of light and heat including heat emitted by the observatory itself.
The final destination for the James Webb telescope is the second Lagrange point or L2 which is 1 million miles away from Earth. Unlike the Hubble telescope, the Webb will not orbit the Earth but it will instead orbit the sun. The telescope’s mission is to observe very faint infrared signals of very distant objects and help scientists learn more about the origin of our universe.
SEE ALSO:
WhatsApp vs Signal vs Telegram: Which messaging app should you use to secure your conversations in 2022?
OnePlus 10 Pro leaked images ahead of pre-orders give us a close look at the upcoming flagship