Watch Live as NASA Astronauts Conduct Spacewalk, Upgrade Space Station

Two NASA astronauts aboard the International Space Station will conduct a spacewalk Monday, Oct. 30, to complete maintenance activities at the orbital complex.

Live coverage of the spacewalk begins at 6:30 a.m. EDT on NASA Television, the NASA app, and the agency’s website. The spacewalk is scheduled to begin about 8:05 a.m., and last about six-and-a-half hours.

NASA astronauts Jasmin Moghbeli and Loral O’Hara will exit the station’s Quest airlock to remove an electronics box called the Radio Frequency Group from a communications antenna on station. They also will replace one of 12 trundle bearing assemblies on a solar alpha rotary joint. The bearings enable the station’s solar arrays to rotate properly to track the Sun as the station orbits the Earth. When looking at the space station, the antenna is on the starboard (right side) truss, and the rotary joint is on the port, or left side.

U.S. spacewalk 89 will be the first for both Moghbeli and O’Hara. Moghbeli will serve as extravehicular activity crew member 1 and will wear a suit with red stripes. O’Hara will serve as extravehicular crew member 2 and will wear an unmarked suit.

Station managers continue planning for another spacewalk with O’Hara, as well as ESA (European Space Agency) astronaut Andreas Mogensen, to collect samples for analysis to see whether microorganisms may exist on the exterior of the orbital complex. That spacewalk, which now is U.S. spacewalk 90, has been postponed to no earlier than December.

Get breaking news, images and features from the space station on the station blog, Instagram, Facebook, and X.

Learn more about International Space Station research and operations at:

https://www.nasa.gov/station

-end-

News Media Contacts

Josh Finch / Julian Coltre
Headquarters, Washington
202-358-1100
joshua.a.finch@nasa.gov / julian.n.coltre@nasa.gov

Sandra Jones
Johnson Space Center, Houston
281-483-5111
sandra.p.jones@nasa.gov

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Meet Tracy Hudspeth: Communications Specialist at NASA Office of Small Business Programs

As another inspiring Hispanic Heritage Month concludes, we wanted to take the moment to highlight one of our own, Tracy Hudspeth. Tracy Hudspeth is the Communication Specialist at NASA Office of Small Business Programs. She plays a pivotal role in shaping the organization’s public image and ensuring effective communication internally and externally.

National Hispanic Heritage Month celebrates the contributions of Hispanic and Latino Americans to the United States. How do you feel about being part of this celebration, especially in the context of your work with NASA?

I’m honored to be recognized in this celebration as an Afro-Latina working for NASA. In this position, I have the pleasure of planning our monthly Learning Series and quarterly Outreach Events. I take pride in the fact that we create events that provide resources and help to promote the growth and development of Hispanic-owned businesses in the United States. This is personal to me because several members of my family, including my mom, utilized available programs and resources to start their businesses.

Can you share an exciting project you recently worked on?

All of my projects have been exciting but if I had to choose, I would say the NASA Small Business Opportunities and Resources Networking Conference which took place on Wednesday, October 11th!

Who inspires you?

All the women in my family.  I come from a long line of strong women. Their traits include being self-confident, productive, optimistic, caring, fearless women who stand up for what they believe in and unbothered by what others say or think.  They have always inspired me to be true to myself and a go-getter! 

Do you have a favorite memory where you most strongly felt a sense of community?

I recently attended a block party in my old neighborhood. This event is special to me because my son who was 5 at the time came up with the idea of having an “outside party” after having a conversation with an original homeowner who had been living there since the 1960’s.  With the assistance of our neighbors, my son’s dream of bringing the block party back to life came true and they have continued the tradition ever since. It was wonderful to attend this year to see the community come together to celebrate and fellowship.

Editor: Maliya Malik, NASA Office Of Small Business Programs Intern

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Metrics

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Metrics

Services Catalog

The catalogs provide service description, chargeback rate, unit of measure, and service level indicators for each NSSC service.

Service Level Agreement (SLA)

The SLA provides information about roles, responsibilities, rates, and service level indicators for all NASA Centers. The SLA is negotiated on an annual basis in line with the fiscal year. A single SLA is shared by all NASA Centers and signed by the Associate Administrator, Chief Financial Officer, Chief Information Officer, and the Office of Inspector General. The SLA provides for the delivery of specific services from the NSSC to NASA Centers and Headquarters Operations in the areas of:

• Financial Management
• Procurement
• Human Resources
• Information Technology
• Agency Business Services

Customer Satisfaction Surveys

The NSSC is fundamentally changing the way NASA does business. In order to maintain customer loyalty and satisfaction, we must not only deliver a higher level of service, but also be customer focused. 
Executive Summary of Broad-Based Survey Results for 2016
Executive Summary of Broad-Based Survey Results for 2013

NSSC Bill (Formerly know as Performance and Utilization Report (PUR))

*** On-Line Course Management and Training Purchases have been realigned to the OLC &Training Purchases section of the bill in accordance with the realignment of training funds. Center Special Projects have been consolidated into one Special Projects bill with the funding Center identified for each project.***

FY 2023 – Utilization Reports

M

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FY 2022 – Utilization Reports
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August 2022
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FY 2021 – Utilization Reports

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NASA

NASA’s Webb Discovers New Feature in Jupiter’s Atmosphere

Narrow jet stream near equator has winds traveling 320 miles per hour

NASA’s James Webb Space Telescope has discovered a new, never-before-seen feature in Jupiter’s atmosphere. The high-speed jet stream, which spans more than 3,000 miles (4,800 kilometers) wide, sits over Jupiter’s equator above the main cloud decks. The discovery of this jet is giving insights into how the layers of Jupiter’s famously turbulent atmosphere interact with each other, and how Webb is uniquely capable of tracking those features.

Image: Webb’s View of Jupiter

“This is something that totally surprised us,” said Ricardo Hueso of the University of the Basque Country in Bilbao, Spain, lead author on the paper describing the findings. “What we have always seen as blurred hazes in Jupiter’s atmosphere now appear as crisp features that we can track along with the planet’s fast rotation.”

The research team analyzed data from Webb’s NIRCam (Near-Infrared Camera) captured in July 2022. The Early Release Science program – jointly led by Imke de Pater from the University of California, Berkeley and Thierry Fouchet from the Observatory of Paris – was designed to take images of Jupiter 10 hours apart, or one Jupiter day, in four different filters, each uniquely able to detect changes in small features at different altitudes of Jupiter’s atmosphere.

“Even though various ground-based telescopes, spacecraft like NASA’s Juno and Cassini, and NASA’s Hubble Space Telescope have observed the Jovian system’s changing weather patterns, Webb has already provided new findings on Jupiter’s rings, satellites, and its atmosphere,” de Pater noted.

While Jupiter is different from Earth in many ways – Jupiter is a gas giant, Earth is a rocky, temperate world – both planets have layered atmospheres. Infrared, visible, radio, and ultraviolet light wavelengths observed by these other missions detect the lower, deeper layers of the planet’s atmosphere – where gigantic storms and ammonia ice clouds reside.

Image: Jupiter’s Equatorial Jet Stream

On the other hand, Webb’s look farther into the near-infrared than before is sensitive to the higher-altitude layers of the atmosphere, around 15-30 miles (25-50 kilometers) above Jupiter’s cloud tops. In near-infrared imaging, high-altitude hazes typically appear blurry, with enhanced brightness over the equatorial region. With Webb, finer details are resolved within the bright hazy band.

The newly discovered jet stream travels at about 320 miles per hour (515 kilometers per hour), twice the sustained winds of a Category 5 hurricane here on Earth. It is located around 25 miles (40 kilometers) above the clouds, in Jupiter’s lower stratosphere.

By comparing the winds observed by Webb at high altitudes, to the winds observed at deeper layers from Hubble, the team could measure how fast the winds change with altitude and generate wind shears.

Image: Jupiter’s Winds

While Webb’s exquisite resolution and wavelength coverage allowed for the detection of small cloud features used to track the jet, the complementary observations from Hubble taken one day after the Webb observations were also crucial to determine the base state of Jupiter’s equatorial atmosphere and observe the development of convective storms in Jupiter’s equator not connected to the jet.  

“We knew the different wavelengths of Webb and Hubble would reveal the three-dimensional structure of storm clouds, but we were also able to use the timing of the data to see how rapidly storms develop,” added team member Michael Wong of the University of California, Berkeley, who led the associated Hubble observations.

The researchers are looking forward to additional observations of Jupiter with Webb to determine if the jet’s speed and altitude change over time.

Image: Zoom in on Webb’s View of Jupiter

“Jupiter has a complicated but repeatable pattern of winds and temperatures in its equatorial stratosphere, high above the winds in the clouds and hazes measured at these wavelengths,” explained team member Leigh Fletcher of the University of Leicester in the United Kingdom. “If the strength of this new jet is connected to this oscillating stratospheric pattern, we might expect the jet to vary considerably over the next 2 to 4 years – it’ll be really exciting to test this theory in the years to come.”

“It’s amazing to me that, after years of tracking Jupiter’s clouds and winds from numerous observatories, we still have more to learn about Jupiter, and features like this jet can remain hidden from view until these new NIRCam images were taken in 2022,” continued Fletcher.

The researchers’ results were recently published in Nature Astronomy.

The James Webb Space Telescope is the world’s premier space science observatory. Webb is solving mysteries in our solar system, looking beyond to distant worlds around other stars, and probing the mysterious structures and origins of our universe and our place in it. Webb is an international program led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.

Media Contacts

Laura Betz – laura.e.betz@nasa.gov
NASA’s Goddard Space Flight Center, Greenbelt, Md.

Hannah Braun – hbraun@stsci.edu , Christine Pulliam – cpulliam@stsci.edi
Space Telescope Science Institute, Baltimore, Md.

Downloads

Download full resolution images for this article from the Space Telescope Science Institute.

Related Information

NASA’s Jupiter Website – https://science.nasa.gov/jupiter/

NASA’s Solar System Website – https://science.nasa.gov/solar-system/

More Webb News – https://science.nasa.gov/mission/webb/latestnews/

More Webb Images – https://science.nasa.gov/mission/webb/multimedia/images/

Webb Mission Page – https://science.nasa.gov/mission/webb/

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steve sabia

First Artemis Crew Trains for Mission Around Moon

Four astronauts are busy training for Artemis II, the first mission to carry humans on NASA’s powerful SLS (Space Launch System) rocket and Orion spacecraft, testing systems to support life in deep space on future Moon missions and expanding the space frontier beyond Earth orbit.

In August, the crew – NASA astronauts Reid Wiseman, Victor Glover, and Christina Koch, and CSA (Canadian Space Agency) astronaut Jeremy Hansen – finished the first part of their training known as fundamentals, establishing a foundational knowledge of all SLS and Orion systems.

The quartet began the process of learning every inch of their Orion crew module’s interior, which will serve as their home for the approximately 10-day flight test. They reviewed the building blocks for navigating the spacecraft’s displays and executing the procedures they will use to fly and monitor Orion. While some training activities included all four crew members together, other activities involved one-on-one sessions with trainers.

“The crew is making incredible progress getting ready for their flight as the first people to fly inside NASA’s newest spacecraft built for deep space,” said Jacki Mahaffey, chief training officer for Artemis II, based at NASA’s Johnson Space Center in Houston. “Their training is preparing them to do everything from planned mission tasks and daily operations, to how to recognize and deal with unexpected situations.”

In September, Koch and Hansen, alongside several other astronauts, took part in geology training in the remote Mistastin Crater in Canada, an area in Newfoundland scientists have identified as one of the sites on Earth that’s most analogous to the Moon. While there, Koch and Hansen worked on identifying instruments and techniques for exploring the lunar surface, demonstrated sampling techniques, and practiced identifying and photographing geological features. While Hansen and Koch will not walk on the Moon during Artemis II, the training helped prepare them for key lunar observations during their mission and will pave the way for future Artemis crews as they train for surface science and discovery.

The full crew also took part in the first dry run for launch day operations at NASA’s Kennedy Space Center in Florida. The test gave the Exploration Ground Systems Program team an opportunity to share and demonstrate the steps involved in preparing the crew to get to their rocket and spacecraft on launch day, including donning their spacesuits, traveling to the launch pad, taking the elevator up the mobile launcher, and walking the crew access arm to the white room, where technicians will help them take their spacecraft seats and check out their systems atop the giant rocket.

“Our training has been very smooth so far and we have enjoyed meeting the men and women around the globe working to bring Artemis missions to reality,” said NASA astronaut Reid Wiseman, the mission commander. “From the crew side, Victor, Christina, Jeremy, and I have developed a strong interpersonal chemistry that will be crucial as we work together to learn more about the Artemis II mission.”

This month, the crew is beginning orbit operations training, including practicing operations in the Orion mission simulator at Johnson. They also are learning details about how to use cameras inside Orion to take photos of their activities inside the spacecraft, and document views of Earth and the Moon through the spacecraft’s four primary windows. Medical training will prepare the crew to handle potential medical situations that could arise during their mission. In the coming months, they also will delve deeper into training for the last leg of the mission, their return to Earth and recovery by a combined NASA and U.S. Navy team, They’ll prepare for both normal and emergency exits from their spacecraft in the ocean.

With Artemis missions, NASA is collaborating with commercial and international partners to explore the Moon for scientific discovery and technology advancement and establish the first long-term presence on the Moon. The Moon missions will serve as training for how to live and work on another world as NASA prepares for human exploration of Mars.

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Rachel H. Kraft