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Scientists Find Star To be 13 Billion Years Old -FASCINATING Story w/picPrev TopicNext Topic
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NASA WELLINGTON NEW ZEALAND SATELLITE
NASSA satellite successfully breaks from orbit, heads for moon
THE SIZE OF A MICRO WAVE OVEN HEADED TOWARD MOON.
The latest step in NASA's plan to land astronauts on the lunar surface again!
GOOD Blessing for a Happy Landing
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NASA WELLINGTON NEW ZEALAND SATELLITE
NASSA satellite successfully breaks from orbit, heads for moon
THE SIZE OF A MICRO WAVE OVEN HEADED TOWARD MOON.
The latest step in NASA's plan to land astronauts on the lunar surface again!
GOOD Blessing for a Happy Landing
Eddessa_Knight w/Light
By serendipity, scientists have photographed Venus’ surface from space for the first time.
Though the planet’s rocky body is concealed beneath a thick veil of clouds, telescopes aboard NASA’s Parker Solar Probe managed to capture the first visible-light images of the surface taken from space, researchers report in the Feb. 16 Geophysical Research Letters.
“We’ve never actually seen the surface through the clouds at these wavelengths before,” said Lori Glaze, Director of NASA’s Planetary Science Division, on February 10 during a live broadcast on Twitter.
Though the Parker Solar Probe was built to study the sun, it must make regular flybys of Venus. The planet’s gravity tugs on the probe, tightening its orbit and bringing it closer to the sun (SN: 1/15/21). Those assists from Venus helped the spacecraft make headlines when it became the first probe to enter the sun’s atmosphere (SN: 12/15/21).
The Parker Solar Probe travels around the sun in a highly elliptical orbit, as illustrated in this video. To tighten its loops and bring it nearer to the blazing star, the probe slows itself down by flying near Venus, using the planet’s gravity as a brake.It was during two such flybys in July 2020 and February 2021 that the probe’s WISPR telescopes captured the new images. While WISPR found Venus’ dayside too bright to image, it was able to discern large-scale surface features, such as the vast highland region called Aphrodite Terra, through the clouds on the nightside.
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GOClouds tend to scatter and absorb light. But some wavelengths of light get through, depending on the clouds’ chemical makeup, says Paul Byrne, a planetary scientist at Washington University in St. Louis who was not involved in the study.
Though scientists knew such spectral windows exist in Venus’ thick clouds of sulfuric acid, the researchers didn’t expect light visible to human eyes would break through so intensely. And while WISPR was designed to study the sun’s atmosphere, its construction also happens to allow it to detect this unanticipated window of light in Venus’ clouds. “It’s fortuitous that they happened to have an instrument that could see through the clouds,” Byrne says.
While flying by Venus in February 2021, NASA’s Parker Solar Probe captured visible light coming from the planet’s surface by using the probe’s two WISPR telescopes — WISPR-O (large box) and WISPR-I (small box). Darker regions represent cooler highlands, while lighter regions represent hotter lowlands.NASA, APL, NRL
The photographs show a planet so hot that it glows, much like red-hot iron, said Brian Wood, an astrophysicist at the U.S. Naval Research Laboratory in Washington, D.C., and a coauthor of the paper, during the social media event.
“The pattern of bright and dark that you see is basically a temperature map,” he said — brighter regions are hotter and darker regions are cooler. This pattern correlates well with topographic maps previously produced from radar and infrared surveys. Highlands appear dark and lowlands appear bright, Wood said.
The images come as NASA prepares to launch two missions to Venus (SN: 6/2/21). The new photographs, Wood said, “may help in the interpretation of the observations taken in the future from these new missions.”
Questions or comments on this article? E-mail us at feedback@sciencenews.org
A version of this article appears in the March 12, 2022 issue of Science News.
CITATIONS
B.E. Wood et al. Parker Solar Probe imaging of the night side of Venus. Geophysical Research Letters. Vol. 49, February 16, 2022, e2021GL096302. doi: 10.1029/2021GL096302.
About Nikk Ogasa
Nikk Ogasa is a staff writer who focuses on the physical sciences for Science News. He has a master's degree in geology from McGill University, and a master's degree in science communication from the University of California, Santa Cruz.
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