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By NASA
Ambiguity.
That’s the word that comes to mind when documentary photographers start each day at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
PACE mission photographer Denny Henry and lead documentary photographer Desiree Stover pose for selfies in the clean room.Credits: NASA “You walk in and think one thing is happening,” said OCI’s lead documentary photographer Desiree Stover. “But in an instant things change – maybe goes wrong –- and you need to be ready to capture it.”
From build to testing to launch, one figure is always present in the background capturing the story of each Goddard mission – the documentary photographer.
In honor of #WorldPhotoDay, follow along as two of our documentarians share what it’s like to capture the story of Goddard’s latest mission build PACE.
PACE or Plankton, Aerosol, Cloud, ocean Ecosystem, is set to launch in early 2024. Its goal is to see ocean and atmosphere features in unparalleled detail. By measuring the intensity of the color that reflects from Earth’s ocean surface, PACE will capture fine details about tiny plant-like organisms and algae that live in the ocean, called phytoplankton, that are the basis of the marine food web and generate half of Earth’s oxygen.
Crafting the Story
For Stover and her partner Denny Henry, PACE’s lead mission photographer, the story starts with the smallest details.
“I think one of the first things I photographed was the outside of a circuit port box. It was literally an empty metal box,” said Henry, who started photographing PACE in 2020, right before the pandemic. “It might be small, but it’s part of a system that’s going to do big things.”
Mark Walter, David Kim, Melyane Ortiz-acosta, and Ariel Obaldo discuss plans for testing the PACE flight Solar Array Panels.Credits: NASA’s Goddard Space Flight Center/Denny Henry A typical day for these photographers usually starts with a morning meeting, assignments and getting ready. By the end of the day, the original plan has likely been changed, multiple times.
“Some days we might shoot eight photos, other days it might be hundreds or more,” Stover said.
PACE, or Plankton, Aerosol, Cloud, ocean Ecosystem, is set to launch in early 2024. Its goal is to see ocean and atmosphere features in unparalleled detail.Credits: NASA Images captured during shoots are used for a variety of things, especially technical components of the mission. This includes documenting builds, spotting mistakes and testing.
Stover got her start at Goddard by photographing NASA’s James Webb Space Telescope before switching to capturing imagery of Goddard’s small instruments, including PACE’s Ocean Color Instrument, or OCI. This advanced sensor will enable continuous measurement of light throughout the ultraviolet to shortwave infrared spectrum to better understand Earth’s ocean and atmosphere.
She says she’s still in awe that her teammates trust her “eye.”
“One of the most fascinating things about working here is that we have a specific job,” she said. “And even though engineers can pick up a camera and take photos, they don’t. They know we’re the experts at it. They trust our eyes to tell and capture the story.”
Henry said one of the most memorable days he’s documented so far was watching the PACE team integrate the SPEXone instrument into the spacecraft.
“All the partners were there as I photographed. It was a big deal,” he said. “I captured every bolt all the way to the mounting. It’s important to get these details. Six months from now someone who wasn’t there might want to see what was done in what order.”
Henry said that capturing images is only part of the job. For every hour of shooting, there’s also an hour spent processing and working with partners to ensure things were documented correctly.
Playing Detective
While telling the story is important, Stover says that part of the job is speaking up, especially when you notice something wrong.
During one assignment documenting vibration testing, Stover noticed that OCI’s Earth shade looked different.
“We took the bagging off and could see tape peeling off the radiator panels, possibly loose wires in certain places,” she said. “When I saw this, I thought back to what it was like when we shot this the first time.”
Physical Science Technician Kristen Washington performs a contamination inspection of the OCI Flight Fold Flat Mirror optic.Credits: Desiree Stover, NASA Goddard It’s common for the photographers to shoot things twice to examine how things might change when in testing. When Stover saw the tape, she got to work ensuring her hunch was right.
She sent a series of images to the thermal team lead letting him know what she found. Plans were already underway to change the design.
The unexpected
Stover and Henry agree that documenting missions has come with some interesting experiences.
Both had to undergo fall protection harness training in the event they had to climb around one of Goddard’s cleanrooms, something that happened to Stover during one assignment.
“Once I was up in Building 29’s high bay. Like up at the very top in the crane rafters shooting. I never thought I was afraid of heights until that moment,” she said. “But I focused on the image and what task I was accomplishing and completed the assignment without issue.”
Henry said adjusting to Covid-19 required a lot of flexibility, especially with sudden changes.
“This is not a job you can do from home,” he said. “After a few months, we adapted.”
Radio Frequency testing of the PACE Earth Coverage Antenna in the Electromagnetic Anechoic Chamber at Goddard Space Flight Center.Credits: NASA’s Goddard Space Flight Center/Denny Henry Henry said that many times mission teams will find that engineering drawings won’t match up with what was actually built. With the pandemic restrictions, PACE heavily relied on his images to note how things changed and why issues occurred.
As PACE heads toward big milestones in the next year, both Stover and Henry are excited to see their work come together, including the day of launch.
They both agreed that photographing the teams involved in each aspect of PACE’s build is especially rewarding as they help create mementos that go along with their mission’s story.
By: Sara Blumberg
NASA’s Goddard Space Flight Center, Greenbelt, Md.
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By USH
Since late November 2024 there is something is going on and no one has the answer to why there are ongoing incursions of unidentified drones over U.S. and U.K. military bases, nuclear installations and areas such as New Jersey and Manchester Airport.
For example, over the past 72 hours, again there have been numerous reports of large, car-sized drones or UFOs seen in the US (New Jersey, Arizona, North Carolina, Texas) and the UK too.
These drones often flying in formations displaying advanced capabilities such as coordination, range, endurance, and the ability to evade detection and interception. Despite multiple sightings, none have been recovered or identified, and no physical descriptions or origins have been confirmed.
Key details:
Activity: The drones have penetrated restricted airspace repeatedly, often in swarms of a dozen or more.
Capabilities: The drones exhibit advanced coordination and endurance, suggesting sophisticated technology.
Response: The U.S. Air Force acknowledges the incursions but states that they have not disrupted operations. Investigations are ongoing in collaboration with U.K. authorities.
Speculation: Potential origins range from Russia or China to commercial or recreational sources. However, their behavior and capabilities seem to exceed typical drone technology. Even there is speculation about an upcoming false flag alien/UFO invasion.
Government Inaction: Criticism is directed at the Pentagon and other authorities for not addressing the issue or taking action to remove the objects, especially given their proximity to critical infrastructure.
The FBI and other authorities are reportedly focused on potential UFO or drone activities, particularly on or around December 3rd, which some claim was predicted to be significant by an individual known for accurately forecasting the 2003 Indonesian tsunami.
Media Suppression: Reports indicate that some footage and discussions about the sightings have been censored or removed.
Historical Context: The events resemble past UFO sightings at military installations, such as the 1975 U.S. military base incursions, where objects displayed extraordinary flight capabilities and eluded interception.
The situation remains unresolved, raising questions about the drones' origins, purpose, and implications for military security.
Whether they are advanced foreign drones or something more extraordinary, the lack of evidence and official explanations fuels speculation whether these sightings represent a security threat.
More information is awaited from ongoing investigations and official responses.
Several links/discussions of reported drone/UFO sightings:
Manchester Airport UFO sighting from inside the cockpit plus Clear shot of Airport UAP https://www.youtube.com/watch?v=6zkZ3x1T0QU
Drones? UFOs? What's flying over the UK Bases? https://www.youtube.com/watch?v=Zy4feLBNQq8
UFO Invasion?! "They're the size of cars spotted over New Jersey https://www.youtube.com/watch?v=iBLa6lUi5fg
Drone/ UFO sighting over the Duke Nuclear Power Plant https://x.com/digijordan/status/1862721088544772434View the full article
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By NASA
Mars: Perseverance (Mars 2020) Perseverance Home Mission Overview Rover Components Mars Rock Samples Where is Perseverance? Ingenuity Mars Helicopter Mission Updates Science Overview Objectives Instruments Highlights Exploration Goals News and Features Multimedia Perseverance Raw Images Images Videos Audio More Resources Mars Missions Mars Sample Return Mars Perseverance Rover Mars Curiosity Rover MAVEN Mars Reconnaissance Orbiter Mars Odyssey More Mars Missions The Solar System The Sun Mercury Venus Earth The Moon Mars Jupiter Saturn Uranus Neptune Pluto & Dwarf Planets Asteroids, Comets & Meteors The Kuiper Belt The Oort Cloud 3 min read
Behind the Scenes at the 2024 Mars 2020 Science Team Meeting
The Mars 2020 Perseverance Rover Science Team meets in person and online during the July 2024 team meeting in Pasadena, CA. Credits: R. Hogg and J. Maki. The Mars 2020 Science Team meets in Pasadena for 3 days of science synthesis
It has become a fun tradition for me to write a summary of our yearly in-person Science Team Meetings (2022 meeting and 2023 meeting). I’ve been particularly looking forward to this year’s update given the recent excitement on the team and in the public about Perseverance’s discovery of a potential biosignature, a feature that may have a biological origin but needs more data or further study before reaching a conclusion about the absence or presence of life.
This past July, ~160 members of the Mars 2020 Science Team met in-person in Pasadena—with another ~50 team members dialed in on-line—for three days of presentations, meetings, and team discussion. For a team that spends most of the year working remotely from around the world, we make the most of these rare opportunities for in-person discussion and synthesis of the rover’s latest science results.
We spent time discussing Perseverance’s most recent science campaign in the Margin unit, an exposure of carbonate-bearing rocks that occurs along the inner rim of Jezero crater. As part of an effort to synthesize what we’ve learned about the Margin unit over the past year, we heard presentations describing surface and subsurface observations collected from the rover’s entire payload. This was followed by a thought-provoking series of presentations that tackled the three hypotheses we’re carrying for the origin of this unit: sedimentary, volcanic (pyroclastic), or crystalline igneous.
Some of our liveliest discussion occurred during presentations about Neretva Vallis, Jezero’s inlet valley that once fed the sedimentary fan and lake system within the crater. Data from the RIMFAX instrument took center stage as we debated the origin and age relationship of the Bright Angel outcrop to other units we’ve studied in the crater.
This context is especially important because the Bright Angel outcrop is home to the Cheyava Falls rock, which contains intriguing features we’ve been calling “leopard spots,” small white spots with dark rims observed in red bedrock of Bright Angel. On the last day of the team meeting, data from our recent “Apollo Temple” abrasion at Cheyava Falls was just starting to arrive on Earth, and team members from the PIXL and SHERLOC teams were huddled in the hallway and at the back of the conference room trying to digest these new results in real time. We had special “pop-up” presentations during which SHERLOC reported compelling evidence for organics in the new abrasion, and PIXL showed interesting new data about the light-toned veins that crosscut this rock.
Between debates about the Margin unit, updates on recently published studies of the Jezero sedimentary fan sequence, and discussion of the newest rocks at Bright Angel, this team meeting was one of our most exciting yet. It also marked an important transition for the Mars 2020 science mission as we prepare to ascend the Jezero crater rim, leaving behind—at least for now—the rocks inside the crater. I can only imagine the interesting new discoveries we’ll make during the upcoming year, and I can’t wait to report back next summer!
Written by Katie Stack Morgan, Mars 2020 Deputy Project Scientist at NASA’s Jet Propulsion Laboratory
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By NASA
For every NASA astronaut who serves as a public face of human spaceflight, there are thousands of people working behind the scenes to make the agency’s missions a success. Even the smallest tasks impact NASA’s ability to explore and innovate for the benefit of humanity.
The team of administrative assistants and secretaries who work at the Johnson Space Center in Houston are acutely aware of this fact.
Whether they are coordinating meetings, arranging travel, or preparing materials and information for Johnson’s leaders, this team of over 90 individuals takes pride in providing critical support for the agency’s programs and managers. “We work hand-in-hand with management to get them where they need to go and ensure they have what they need to continue doing their important work,” said Carla Burnett, an executive assistant in the Center Director’s Office who is also the lead for all of Johnson’s administrative staff.
Carla Burnett participates in NASA’s celebration of the 60th anniversary of President John F. Kennedy’s historic Moon speech, held at Rice Stadium in Houston on Sept. 12, 2022. Image courtesy of Carla Burnett Burnett has turned her long-standing passion for administrative work into a 41-year career at Johnson. She was just a youngster when she started working in the Astronaut Office mailroom – an opportunity that came through her high school’s Office Education Program. “Being a meek and mild high school student, sitting there with the astronauts, going through all of their fan mail – I was in awe! It was an absolute honor,” she said. That experience and earning recognition as her high school’s Office Education Student of the Year confirmed for Burnett that administrative work was the right career path for her. She said that fidelity and perseverance launched her from the Astronaut Office mailroom to a position as a crew secretary for two space shuttle flights. “Being a servant and helping others is what I really love about administrative work,” she said.
Today, Burnett supports Johnson’s senior executives and serves as a central resource for the rest of the administrative team. “They are all very self-sufficient and work within their own organizations,” she explained, but she may coordinate team-wide meetings, celebrations, or trainings, and she is always available to help answer questions. “We work consistently as a cohesive team. We are knowledgeable and, may I add, exceptional at what we do because we do it for the benefit and success of our Johnson family, NASA, and a plethora of communities!”
Burnett’s dedication to service is reflected across the administrative team, as is a commitment to caring for others. Edwina Gaines, administrative assistant for the Extravehicular Activity and Human Surface Mobility Program, said that being an instrument of team success and the opportunity to build long-lasting friendships are the most rewarding parts of her job. “That connection to people is important,” she said. “It’s important for me to know who I’m supporting or working with.”
Edwina Gaines snaps a selfie during a professional development event for administrative professionals in 2023. Gaines joined the Johnson team as a contractor nearly 20 years ago thanks to an opportunity that arose from her volunteer work at church. A church partner, the Houston Area Urban League, was helping a NASA subcontractor fill a secretarial position through the Small Business Administration’s HUBZone Program. Gaines got the job.
Since then, she has supported four programs and two institutional organizations, getting to know several agency leaders quite well. Gaines said she paid attention to little details – like which managers preferred printed materials over presentations, how they organized their offices, and when they typically stopped for coffee or something to eat – and worked to stay one step ahead of them. She recalled one occasion when she realized a manager had not taken a break in five hours and brought her something to drink. “It’s about taking care of the people who are doing the mission. If you don’t take care of yourself, you can’t complete the mission,” she said.
Rick Pettis, the administrative officer for the Center Operations Directorate, appreciates being part of a great team. Pettis has worked at Johnson since 2014, when he retired from the U.S. Navy after 23 years. “I enjoy helping people with problem solving,” he said. “Every day there will be someone who calls me to ask, ‘How do I get this done?’”
Rick Pettis poses with a spacesuit display.Image courtesy of Rick Pettis The administrative team’s work involves other highlights, as well. “When I met my first astronaut, I was in awe,” said Dottie Workman, a secretary supporting Johnson’s External Relations Office. “I couldn’t believe that someone so important was walking around the campus just like everyone else. He was so nice – he shook my hand and took the time to talk to me.”
Workman has been a civil servant for 52 years and 29 of those have been spent at Johnson. “My career has taken me all over the United States and Germany,” she said. “When my son was in the military and stationed at Ft. Sam Houston in San Antonio he said, ‘Mom, why don’t you move to Texas?’ I didn’t have a good reason to say no, so here I am!”
Dottie Workman met J.J. Watt, former professional football player with the Houston Texans, during his visit to Johnson Space Center. Image courtesy of Dottie Workman. Outside of meeting and interacting with astronauts, Workman said being able to share NASA with her family and friends is her favorite part of working at Johnson. “It is always exciting to see their reaction,” she said.
Burnett is thankful for a united team that understands the value of their work. “I’m grateful to work with a group of professionals who know the significance of propelling today’s men and women into the next generation of deep space for years to come,” she said. “We are Artemis proud!”
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