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By NASA
In her six years working with NASA, Miranda Peters has filled a variety of roles. She trained in flight control for the International Space Station, worked as a safety engineer in the station’s program office, and served as a project engineer working on next-generation spacesuit assembly and testing.
She has also embraced an unofficial duty: speaking openly and honestly about her neurodivergence.
“I used to hide it or avoid talking about it. I used to only see it as an impediment, but now I see how I can also do things or think about things in a unique way because of my disability,” she said. Peters said that when her neurodivergence impacts her ability to do something, she is honest about it and seeks help from her colleagues. “My hope is that when I talk about it openly, I am creating an environment where others with disabilities also feel comfortable being their true selves, in addition to humanizing the disabled community for those who are not a part of it.”
Miranda Peters stands inside one of Johnson Space Center’s testing chambers in Houston with an Exploration Extravehicular Mobility Unit (xEMU) in the background.NASA Over time, Peters has also shifted her self-perception. “I’m an anxious person and was made to feel self-conscious about that in the past, but that anxiety also makes me transparent about what I’m doing and where the gaps in my knowledge are, which has earned praise from team leadership,” she said. Similarly, while Peters once saw her sensitivity as a weakness, she learned to appreciate her ability to empathize with and anticipate the needs of others. “That makes me a good mentor and leader,” she said.
Learning to filter feedback has been another important lesson. “Advice and criticism are both useful tools, but not all of the time,” she explained. “I found myself tightly holding on to all of the criticism I received. It was easier to determine which advice didn’t work for me.” When Peters stopped to ask herself if she would take advice from the same person who was critiquing her, it became easier to take their feedback “with a pinch of salt.”
Miranda Peters (center) with the SxEMU Chamber C testing team.NASA Peters applies these lessons learned as a design verification and test hardware lead within the Spacesuit and Crew Survival Systems Branch at Johnson Space Center in Houston. She currently supports tests of the Portable Life Support System (xPLSS) that will be integrated into the new spacesuits worn by astronauts on future missions to explore the lunar surface. She is responsible for assembling and disassembling test units, making hardware and software updates, and integrating the xPLSS with various components of the spacesuit, known as the xEMU.
Peters’ most recent prior position was assembly and integration engineer within the same branch. She had an opportunity to serve as the interim xPLSS hardware lead when a colleague went on leave for several months, and suddenly found herself managing a major project. “We got a lot done in a short amount of time without loss of procedural integrity, even when we encountered unexpected changes in schedule,” she said. “I also used this large amount of lab work as an opportunity to train new hires and interns in assembly processes.” When the colleague returned, Peters was promoted to the newly created role overseeing design verification and testing.
“I really love how universal spacesuits are in their ability to excite and draw wonder from across the human spaceflight community and the general public,” she said. “Working on the xEMU project has affirmed for me that human surface mobility is the field that I want to make my career.” That realization inspired Peters to pursue a graduate degree in space architecture from the University of Houston, which she expects to complete in May 2026.
Miranda Peters (center) with members of the Portable Life Support System team during an assembly activity in 2021.Miranda Peters Peters looks forward to a future where NASA’s astronaut classes include individuals with different abilities. She encourages agency leaders, contractors, and others to have open conversations about workplace accommodations early in their hiring and performance review processes. “I think if we provide the opportunity to talk about accommodations and how to request them, employees would be more empowered to ask for what they need to be successful,” she said. Educating managers about available accommodations and allocating resources to expand the accessibility of those accommodations would also be helpful.
Peters hopes to pass that feeling of empowerment on to the Artemis Generation. “Empowerment to be themselves, to do the hard things, and to not limit themselves,” she said. “We need to take advantage of all the opportunities we can, and not let the fear of failure or not being ‘good enough’ stop us from going where we want to.”
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By NASA
2 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
NASA project manager Patricia Ortiz stands in front of the X-1E research aircraft at NASA’s Armstrong Flight Research Center in Edwards, California.NASA Lee esta historia en Español aquí.
Patricia Ortiz is proud to be a first-generation Salvadoran American. Her mother, born and raised in El Salvador, came to the United States for a better opportunity despite not knowing anyone or the English language.
As a project manager for Space Projects and Partnerships at NASA’s Armstrong Flight Research Center in Edwards, California, Ortiz manages various space and aeronautics projects for new technologies that begin from the early stages to the execution. This involves meeting with partners, working with leadership and managing the project for performance and mission success.
While reflecting on her journey to NASA, Ortiz honors her mother for her resiliency and the impact she had on her. “My mom faced a lot of hardship in coming to this country, but she came to this country so that I could do this.” This brave decision to move to an unfamiliar place was what opened the door for Ortiz to eventually work for NASA.
Ortiz enjoys staying connected to her Salvadoran roots and one way she does this is through food. Her favorite dish: the pupusa. “My mom makes the best pupusas with chicharrón [pork], cheese, and curtido [cabbage slaw]. It’s so delicious!”
NASA is celebrating Hispanic Heritage Month by sharing the rich histories, cultures and passions of employees who contribute to advancing the agency’s mission and success for the benefit of all humanity. This month-long, annual celebration honors and recognizes the Hispanic and Latino Americans who have positively influenced and enriched our nation and society.
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Last Updated Oct 07, 2024 EditorDede DiniusContactElena Aguirreelena.aguirre@nasa.govLocationArmstrong Flight Research Center Related Terms
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2 min read Una gerente de proyectos de la NASA rinde homenaje a la influencia de su madre
Article 21 mins ago 5 min read 2 NASA Employees Awarded Space and Satellite Professionals 20 under 35 of 2024
Article 4 days ago 6 min read Astrophysicist Gioia Rau Explores Cosmic ‘Time Machines’
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By USH
Where do asteroids get all those craters? Countless small circular craters, plus almost always a few that look like massive killers. Even more confusing is that these craters are at a perfect 90º angle, as if an electric arc had run across the surface.
According to ThunderboltsProject, the Electric Universe (EU) model, the scars observed on asteroids are caused by electric arcs which cut surface depressions, scoop out material, accelerate it into space, then leave behind clean-cut geological relief.
This theory is supported by Electric Discharge Machining (EDM), a process we use every day to shape materials with electric arcs, producing similar clean-cut effects.
This brings us to the following hypothesis: Could it be that, instead of craters on asteroids being formed solely by natural space phenomena, that all these craters at a perfect 90º angle with clean-cut geological relief are the result of asteroid mining originated by alien races who use advanced electric arc/laser technology by extracting raw minerals they urgently need for use on their planet or for in-space manufacturing?
Asteroids vary greatly in composition, ranging from those rich in volatile substances to those composed of metals like gold, silver, platinum, cobalt, and palladium, alongside more common elements such as iron and nickel. This makes them potential treasure troves of valuable resources.
For us as Earthlings, asteroid mining is a technology in its earliest stages and requires significant advances in robotic technology before asteroid mining becomes a reality, however, if more advanced civilizations exist elsewhere in the universe, it's quite plausible that some of them have already turned to asteroid mining long ago.
Could their efforts be leaving behind the very craters on asteroids we observe today?
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By NASA
Hubble Space Telescope Home NASA’s Hubble Finds that… Missions Hubble Home Overview About Hubble The History of Hubble Hubble Timeline Why Have a Telescope in Space? Hubble by the Numbers At the Museum FAQs Impact & Benefits Hubble’s Impact & Benefits Science Impacts Cultural Impact Technology Benefits Impact on Human Spaceflight Astro Community Impacts Science Hubble Science Science Themes Science Highlights Science Behind Discoveries Hubble’s Partners in Science Universe Uncovered Explore the Night Sky Observatory Hubble Observatory Hubble Design Mission Operations Missions to Hubble Hubble vs Webb Team Hubble Team Career Aspirations Hubble Astronauts News Hubble News Hubble News Archive Social Media Media Resources Multimedia Multimedia Images Videos Sonifications Podcasts E-books Lithographs Fact Sheets Glossary Posters Hubble on the NASA App More Online Activities 6 min read
NASA’s Hubble Finds that a Black Hole Beam Promotes Stellar Eruptions
This is an artist’s concept looking down into the core of the giant elliptical galaxy M87. A supermassive black hole ejects a 3,000-light-year-long jet of plasma, traveling at nearly the speed of light. In the foreground, to the right is a binary star system. The system is far from the black hole, but in the vicinity of the jet. In the system an aging, swelled-up, normal star spills hydrogen onto a burned-out white dwarf companion star. As the hydrogen accumulates on the surface of the dwarf, it reaches a tipping point where it explodes like a hydrogen bomb. Novae frequently pop-off throughout the giant galaxy of 1 trillion stars, but those near the jet seem to explode more frequently. So far, it’s anybody’s guess why black hole jets enhance the rate of nova eruptions. NASA, ESA, Joseph Olmsted (STScI)
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In a surprise finding, astronomers using NASA’s Hubble Space Telescope have discovered that the blowtorch-like jet from a supermassive black hole at the core of a huge galaxy seems to cause stars to erupt along its trajectory. The stars, called novae, are not caught inside the jet, but apparently in a dangerous neighborhood nearby.
The finding is confounding researchers searching for an explanation. “We don’t know what’s going on, but it’s just a very exciting finding,” said lead author Alec Lessing of Stanford University. “This means there’s something missing from our understanding of how black hole jets interact with their surroundings.”
A nova erupts in a double-star system where an aging, swelled-up, normal star spills hydrogen onto a burned-out white dwarf companion star. When the dwarf has tanked up a mile-deep surface layer of hydrogen that layer explodes like a giant nuclear bomb. The white dwarf isn’t destroyed by the nova eruption, which ejects its surface layer and then goes back to siphoning fuel from its companion, and the nova-outburst cycle starts over again.
Hubble found twice as many novae going off near the jet as elsewhere in the giant galaxy during the surveyed time period. The jet is launched by a 6.5-billion-solar-mass central black hole surrounded by a disk of swirling matter. The black hole, engorged with infalling matter, launches a 3,000-light-year-long jet of plasma blazing through space at nearly the speed of light. Anything caught in the energetic beam would be sizzled. But being near its blistering outflow is apparently also risky, according to the new Hubble findings.
A Hubble Space Telescope image of the giant galaxy M87 shows a 3,000-light-year-long jet of plasma blasting from the galaxy’s 6.5-billion-solar-mass central black hole. The blowtorch-like jet seems to cause stars to erupt along its trajectory. These novae are not caught inside the jet, but are apparently in a dangerous neighborhood nearby. During a recent 9-month survey, astronomers using Hubble found twice as many of these novae going off near the jet as elsewhere in the galaxy. The galaxy is the home of several trillion stars and thousands of star-like globular star clusters. NASA, ESA, STScI, Alec Lessing (Stanford University), Mike Shara (AMNH); Acknowledgment: Edward Baltz (Stanford University); Image Processing: Joseph DePasquale (STScI)
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The finding of twice as many novae near the jet implies that there are twice as many nova-forming double-star systems near the jet or that these systems erupt twice as often as similar systems elsewhere in the galaxy.
“There’s something that the jet is doing to the star systems that wander into the surrounding neighborhood. Maybe the jet somehow snowplows hydrogen fuel onto the white dwarfs, causing them to erupt more frequently,” said Lessing. “But it’s not clear that it’s a physical pushing. It could be the effect of the pressure of the light emanating from the jet. When you deliver hydrogen faster, you get eruptions faster. Something might be doubling the mass transfer rate onto the white dwarfs near the jet.” Another idea the researchers considered is that the jet is heating the dwarf’s companion star, causing it to overflow further and dump more hydrogen onto the dwarf. However, the researchers calculated that this heating is not nearly large enough to have this effect.
“We’re not the first people who’ve said that it looks like there’s more activity going on around the M87 jet,” said co-investigator Michael Shara of the American Museum of Natural History in New York City. “But Hubble has shown this enhanced activity with far more examples and statistical significance than we ever had before.”
Shortly after Hubble’s launch in 1990, astronomers used its first-generation Faint Object Camera (FOC) to peer into the center of M87 where the monster black hole lurks. They noted that unusual things were happening around the black hole. Almost every time Hubble looked, astronomers saw bluish “transient events” that could be evidence for novae popping off like camera flashes from nearby paparazzi. But the FOC’s view was so narrow that Hubble astronomers couldn’t look away from the jet to compare with the near-jet region. For over two decades, the results remained mysteriously tantalizing.
Compelling evidence for the jet’s influence on the stars of the host galaxy was collected over a nine-month interval of Hubble observing with newer, wider-view cameras to count the erupting novae. This was a challenge for the telescope’s observing schedule because it required revisiting M87 precisely every five days for another snapshot. Adding up all of the M87 images led to the deepest images of M87 that have ever been taken.
In a surprise finding, astronomers, using NASA’s Hubble Space Telescope have discovered that the jet from a supermassive black hole at the core of M87, a huge galaxy 54 million light years away, seems to cause stars to erupt along its trajectory.
NASA’s Goddard Space Flight Center; Lead Producer: Paul Morris Hubble found 94 novae in the one-third of M87 that its camera can encompass. “The jet was not the only thing that we were looking at — we were looking at the entire inner galaxy. Once you plotted all known novae on top of M87 you didn’t need statistics to convince yourself that there is an excess of novae along the jet. This is not rocket science. We made the discovery simply by looking at the images. And while we were really surprised, our statistical analyses of the data confirmed what we clearly saw,” said Shara.
This accomplishment is entirely due to Hubble’s unique capabilities. Ground-based telescope images do not have the clarity to see novae deep inside M87. They cannot resolve stars or stellar eruptions close to the galaxy’s core because the black hole’s surroundings are far too bright. Only Hubble can detect novae against the bright M87 background.
Novae are remarkably common in the universe. One nova erupts somewhere in M87 every day. But since there are at least 100 billion galaxies throughout the visible universe, around 1 million novae erupt every second somewhere out there.
The Hubble Space Telescope has been operating for over three decades and continues to make ground-breaking discoveries that shape our fundamental understanding of the universe. Hubble is a project of international cooperation between NASA and ESA (European Space Agency). NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope and mission operations. Lockheed Martin Space, based in Denver, Colorado, also supports mission operations at Goddard. The Space Telescope Science Institute in Baltimore, Maryland, which is operated by the Association of Universities for Research in Astronomy, conducts Hubble science operations for NASA.
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Hubble’s Messier Catalog: M87
Hubble Black Holes
Monster Black Holes are Everywhere
Facebook logo @NASAHubble @NASAHubble Instagram logo @NASAHubble Media Contact:
Claire Andreoli
NASA’s Goddard Space Flight Center, Greenbelt, MD
claire.andreoli@nasa.gov
Ray Villard
Space Telescope Science Institute, Baltimore, MD
Science Contact:
Alec Lessing
Stanford University, Stanford, CA
Michael Shara
American Museum of Natural History, New York, NY
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Last Updated Sep 26, 2024 Editor Andrea Gianopoulos Location NASA Goddard Space Flight Center Related Terms
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Since its 1990 launch, the Hubble Space Telescope has changed our fundamental understanding of the universe.
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