NASA

3 min read

Adam and Hirsa Present Research on the Ring-Sheared Drop Abnormal fibrous, extracellular, proteinaceous deposits found in organs and tissues are associated with neurodegenerative diseases such as Alzheimer’s. (“Amyloid fibril formation in microgravity: Distinguishing interfacial and flow effects” NNX13AQ22G). The Ring Sheared Drop investigation studies the biophysics of protein amyloidogenesis in the absence of gravity in order to study fibril formation at fluid interfaces, in the absence of solid walls. NASA

Researchers across Space Biology and Physical Sciences come together for a special presentation at the May PSI Users Group.

The Ring-Sheared Drop (RSD) is a Microgravity Science Glovebox experiment that launched in July 2019 to the ISS to study shearing flow in the absence of solid walls. The major goals of this project were to adapt and use the RSD module to develop and test predictive models of non-Newtonian flow of high-concentration proteins at the interface.

At the May Physical Sciences Informatics (PSI) User Group, Dr. Joe Adam, Research Scientist at Rensselaer Polytechnic Institute and University Payload Director of the RSD module, presented, “Protein Solution Hydrodynamic Studies in the Ring-Sheared Drop” detailing the history of RSD, research campaigns and data to be released in PSI. This investigation was led by Principal Investigator, Prof. Amir Hirsa of Rensselaer Polytechnic Institute.

The ring-sheared drop interfacial bioprocessing of pharmaceuticals-I (RSD-IBP-I) campaign aimed to study non-Newtonian interfacial hydrodynamics of the blood transport proteins bovine serum albumin (BSA) and human serum albumin (HSA) in microgravity. Specifically, scientific aims focus on the effects of protein primary structure (BSA or HSA), protein concentration and interfacial shear rate on microgravity fluid flow, measured using velocimetry of hollow glass microsphere tracer particles within protein samples. This campaign intended to confer improved understanding of interfacial protein flows in relation to physiology, the environment, and industry relevant to both spaceflight and Earth. Results from this line of research could have applications to in situ pharmaceutical production, tissue engineering, and diseases such as Alzheimer’s, Parkinson’s, infectious prions, and type 2 diabetes.

To encourage collaboration across common areas of BPS’s Physical Sciences and Biology research, PSI invited Ryan Scott, ALSDA lead Scientist, and members of the ADBR (Alz Disease & Brain Resilience) and Parkinson’s AWG subgroups to attendee this month’s meeting which fueled discussions and led to several connections. During the discussions the two relevant collaborative publications that were shared are:

• McMackin, P., Adam, J., Griffin, S. et al. Amyloidogenesis via interfacial shear in a containerless biochemical reactor aboard the International Space Station. npj Microgravity 8, 41 (2022). https://doi.org/10.1038/s41526-022-00227-2
• Nilufar Ali paper resulting in part from a collaboration within the Parkison’s AWG subgroup

Ali, N., Beheshti, A. & Hampikian, G. Space exploration and risk of Parkinson’s disease: a perspective review. npj Microgravity 11, 1 (2025). https://doi.org/10.1038/s41526-024-00457-6

Ring-Sheared Drop – Interfacial Bioprocessing of Pharmaceuticals(RSD-IBP-I) is now accessible in PSI. http://doi.org/10.60555/smat-bb74

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An aircraft body modeled after an air taxi with weighted test dummies inside is being prepared for a drop test by researchers at NASA’s Langley Research Center in Hampton, Virginia. The test was completed June 26 at Langley’s Landing and Impact Research Facility. The aircraft was dropped from a tall steel structure, known as a gantry, after being hoisted about 35 feet in the air by cables. NASA researchers are investigating aircraft materials that best absorb impact forces in a crash.

An aircraft body modeled after an air taxi with weighted test dummies inside is being prepared for a drop test by researchers at NASA’s Langley Research Center in Hampton, Virginia. The test was completed June 26, 2025, at Langley’s Landing and Impact Research Facility. The aircraft was dropped from a tall steel structure, known as a gantry, after being hoisted about 35 feet in the air by cables. NASA researchers are investigating aircraft materials that best absorb impact forces in a crash.NASA/Mark Knopp

As the aviation industry works to design air taxis and other new electric aircraft, there’s a growing need to understand how the materials behave. That’s why NASA is investigating potential air taxi materials and designs to best protect passengers in the event of a crash.

On June 26, 2025, at NASA’s Langley Research Center in Hampton, Virginia, researchers dropped a full-scale aircraft body modeled after an air taxi from a tall steel structure, known as a gantry.

The NASA researchers behind this test and a previous one in late 2022 investigated materials that best absorb impact forces, generating data that will enable manufacturers to design safer advanced air mobility aircraft.

Image Credit: NASA/Mark Knopp

An aircraft body modeled after an air taxi with weighted test dummies inside is being prepared for a drop test by researchers at NASA’s Langley Research Center in Hampton, Virginia. The test was completed June 26, 2025, at Langley’s Landing and Impact Research Facility. The aircraft was dropped from a tall steel structure, known as a gantry, after being hoisted about 35 feet in the air by cables. NASA researchers are investigating aircraft materials that best absorb impact forces in a crash.NASA/Mark Knopp

As the aviation industry works to design air taxis and other new electric aircraft, there’s a growing need to understand how the materials behave. That’s why NASA is investigating potential air taxi materials and designs to best protect passengers in the event of a crash.

On June 26, 2025, at NASA’s Langley Research Center in Hampton, Virginia, researchers dropped a full-scale aircraft body modeled after an air taxi from a tall steel structure, known as a gantry.

The NASA researchers behind this test and a previous one in late 2022 investigated materials that best absorb impact forces, generating data that will enable manufacturers to design safer advanced air mobility aircraft.

Image Credit: NASA/Mark Knopp

NASA Astronaut Kate RubinsNASA

NASA astronaut and microbiologist Kate Rubins retired Monday after 16 years with the agency. During her time with NASA, Rubins completed two long-duration missions aboard the International Space Station, logging 300 days in space and conducting four spacewalks.
 
“I want to extend my sincere gratitude to Kate for her dedication to the advancement of human spaceflight,” said Steve Koerner, acting director of NASA’s Johnson Space Center in Houston. “She is leaving behind a legacy of excellence and inspiration, not only to our agency, but to the research and medical communities as well. Congratulations, Kate, on an extraordinary career.”
 
Rubins’ first mission to the orbiting laboratory began in July 2016, aboard the first test flight of the new Soyuz MS spacecraft. As part of Expedition 48/49, she contributed to more than 275 scientific experiments, including molecular and cellular biology research, and she was the first person to sequence DNA in space. Her work enabled significant advances with in-flight molecular diagnostics, long-duration cell culture, and the development of molecular biology tools and processes, such as handling and transferring small amounts of liquids in microgravity. Rubins also led the integration and deployment of biomedical hardware aboard the space station, supporting crew health and scientific research in space and on Earth.
 
She again launched in October 2020, aboard a Soyuz spacecraft from the Baikonur Cosmodrome in Kazakhstan, taking part in Expedition 63/64. Alongside her crewmates, Rubins spent hundreds of hours working on new experiments and furthering research investigations conducted during her mission, including heart research and multiple microbiology studies. She also advanced her work on DNA sequencing in space, which could allow future astronauts to diagnose illness or identify microbes growing aboard the station or during future exploration missions.
 
“From her groundbreaking work in space to her leadership on the ground, Kate has brought passion and excellence to everything she’s done,” said Joe Acaba, chief of the Astronaut Office at NASA Johnson. “She’s been an incredible teammate and role model. We will miss her deeply, but her impact will continue to inspire.”
 
In addition to her flight assignments, Rubins served as acting deputy director of NASA’s Human Health and Performance Directorate, where she helped guide strategy for crew health and biomedical research. More recently, she contributed to developing next-generation lunar spacesuits, helping prepare for future Artemis missions to the Moon.
 
 
Before her selection as an astronaut in 2009, Rubins received a bachelor’s degree in molecular biology from the University of California, San Diego, and a doctorate in cancer biology from Stanford University Medical School’s Biochemistry Department and Microbiology and Immunology Department. After returning from her second space mission, Rubins commissioned as a major in the U.S. Army Reserve, serving as a microbiologist in the Medical Service Corps. She currently holds the role of innovation officer with the 75th U.S. Army Reserve Innovation Command’s MedBio Detachment, headquartered in Boston. 


A frequent keynote speaker at scientific, educational, and industry events on space biology, biomedical engineering, and human exploration, Rubins has advocated for NASA’s scientific and exploration missions. As she transitions from government service, she remains committed to advancing innovation at the intersection of biology, technology, and space.
 
“It has been the honor of a lifetime to live and work in space,” said Rubins. “I am grateful for the extraordinary advances at NASA, and it was a privilege to serve and contribute to something so meaningful. The mission of exploration continues, and I can’t wait to watch this nation do what once seemed impossible.”
 

Learn more about how NASA explores the unknown and innovates for the benefit of humanity at:

https://www.nasa.gov/

-end-

Raegan Scharfetter

Johnson Space Center, Houston

281-910-4989

raegan.r.scharfetter@nasa.gov

NASA Astronaut Kate RubinsNASA

NASA astronaut and microbiologist Kate Rubins retired Monday after 16 years with the agency. During her time with NASA, Rubins completed two long-duration missions aboard the International Space Station, logging 300 days in space and conducting four spacewalks.
 
“I want to extend my sincere gratitude to Kate for her dedication to the advancement of human spaceflight,” said Steve Koerner, acting director of NASA’s Johnson Space Center in Houston. “She is leaving behind a legacy of excellence and inspiration, not only to our agency, but to the research and medical communities as well. Congratulations, Kate, on an extraordinary career.”
 
Rubins’ first mission to the orbiting laboratory began in July 2016, aboard the first test flight of the new Soyuz MS spacecraft. As part of Expedition 48/49, she contributed to more than 275 scientific experiments, including molecular and cellular biology research, and she was the first person to sequence DNA in space. Her work enabled significant advances with in-flight molecular diagnostics, long-duration cell culture, and the development of molecular biology tools and processes, such as handling and transferring small amounts of liquids in microgravity. Rubins also led the integration and deployment of biomedical hardware aboard the space station, supporting crew health and scientific research in space and on Earth.
 
She again launched in October 2020, aboard a Soyuz spacecraft from the Baikonur Cosmodrome in Kazakhstan, taking part in Expedition 63/64. Alongside her crewmates, Rubins spent hundreds of hours working on new experiments and furthering research investigations conducted during her mission, including heart research and multiple microbiology studies. She also advanced her work on DNA sequencing in space, which could allow future astronauts to diagnose illness or identify microbes growing aboard the station or during future exploration missions.
 
“From her groundbreaking work in space to her leadership on the ground, Kate has brought passion and excellence to everything she’s done,” said Joe Acaba, chief of the Astronaut Office at NASA Johnson. “She’s been an incredible teammate and role model. We will miss her deeply, but her impact will continue to inspire.”
 
In addition to her flight assignments, Rubins served as acting deputy director of NASA’s Human Health and Performance Directorate, where she helped guide strategy for crew health and biomedical research. More recently, she contributed to developing next-generation lunar spacesuits, helping prepare for future Artemis missions to the Moon.
 
 
Before her selection as an astronaut in 2009, Rubins received a bachelor’s degree in molecular biology from the University of California, San Diego, and a doctorate in cancer biology from Stanford University Medical School’s Biochemistry Department and Microbiology and Immunology Department. After returning from her second space mission, Rubins commissioned as a major in the U.S. Army Reserve, serving as a microbiologist in the Medical Service Corps. She currently holds the role of innovation officer with the 75th U.S. Army Reserve Innovation Command’s MedBio Detachment, headquartered in Boston. 


A frequent keynote speaker at scientific, educational, and industry events on space biology, biomedical engineering, and human exploration, Rubins has advocated for NASA’s scientific and exploration missions. As she transitions from government service, she remains committed to advancing innovation at the intersection of biology, technology, and space.
 
“It has been the honor of a lifetime to live and work in space,” said Rubins. “I am grateful for the extraordinary advances at NASA, and it was a privilege to serve and contribute to something so meaningful. The mission of exploration continues, and I can’t wait to watch this nation do what once seemed impossible.”
 

Learn more about how NASA explores the unknown and innovates for the benefit of humanity at:

https://www.nasa.gov/

-end-

Raegan Scharfetter

Johnson Space Center, Houston

281-910-4989

raegan.r.scharfetter@nasa.gov

Curiosity Navigation

• Curiosity Home
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2 min read

Curiosity Blog, Sols 4611-4613: Scenic Overlook NASA’s Mars rover Curiosity acquired this image, sitting on top of the distinctive ridge-and-hollow terrain of the boxwork-forming unit for a panoramic view, on July 24, 2025. Curiosity used its Right Navigation Camera on Sol 4609, or Martian day 4,609 of the Mars Science Laboratory mission, at 21:29:43 UTC. NASA/JPL-Caltech

Written by Lucy Lim, Planetary Scientist at NASA’s Goddard Space Flight Center

Earth planning date: Friday, July 25, 2025

A 23-meter drive (about 75 feet) brought Curiosity to today’s planned “look-about” spot. The highlight of the plan will be the 360-degree Mastcam panorama that will document the ridge-and-hollow topography of the boxwork-forming unit we’ve been exploring, in addition to overlying stratigraphy in some of the nearby buttes. The right-angle ridge pattern is quite prominent in the HiRISE orbital imaging, which enabled us to plan for this stop. It has been 70 sols since the last panorama, and the rover has driven quite some distance in that time!

Additional detailed imaging was planned with the ChemCam remote imager (RMI) and Mastcam high-resolution M100: mosaics will cover the exposed strata underneath the ridge we’re planning to drive on (“Arequipa Airport”), two linear fractures, one parallel to the large ridge and one cross-cutting it (“Laguna de Salinas” and “Laguna Santa Rosa”), some troughs around a nearby light-toned float block (“Arubai”), and the Uyuni butte in the middle distance.

The bedrock texture here was a noticeable change from the previous workspace, with a knobbly oriented texture interspersed occasionally with platier exposures. Geochemical measurements were planned with the ChemCam LIBS to complement the auto-targeted post-drive AEGIS measurement: “La Coca” on a block that appeared to show unusual colors, and “El Algodón” on a knobbly textured chunk of bedrock. APXS geochemistry was planned with dust removal on the “Yura Tuff” knobbly target and without dust removal on the “Tipnis” target. MAHLI will also provide close-up imaging on the two APXS targets.

For the modern Martian environment, it’s still the cloudy season at Gale so we are planning several cloud-related activities. The Mastcam sky survey will measure abundances of atmospheric dust and water ice, whereas a special cloud altitude observation will include video of clouds and their shadows so that the altitudes and velocities of the clouds and related winds can be calculated. A separate short movie will search for dust lifting (dust devil) activity. Finally, the usual passive REMS and DAN observations will monitor the temperature, humidity, and neutron environment at Curiosity’s current location.

For more Curiosity blog posts, visit MSL Mission Updates

Learn more about Curiosity’s science instruments

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3 min read Curiosity Blog, Sols 4609–4610: Recharged and Ready To Roll Onwards

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Mars is the fourth planet from the Sun, and the seventh largest. It’s the only planet we know of inhabited…

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Explore this collection of Mars images, videos, resources, PDFs, and toolkits. Discover valuable content designed to inform, educate, and inspire,…

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Each robotic explorer sent to the Red Planet has its own unique capabilities driven by science. Many attributes of a…

Mars Exploration: Science Goals

The key to understanding the past, present or future potential for life on Mars can be found in NASA’s four…

Curiosity Navigation

• Curiosity Home
• Science
• News and Features
• Multimedia
• Mars Missions
• Mars Home

2 min read

Curiosity Blog, Sols 4611-4613: Scenic Overlook NASA’s Mars rover Curiosity acquired this image, sitting on top of the distinctive ridge-and-hollow terrain of the boxwork-forming unit for a panoramic view, on July 24, 2025. Curiosity used its Right Navigation Camera on Sol 4609, or Martian day 4,609 of the Mars Science Laboratory mission, at 21:29:43 UTC. NASA/JPL-Caltech

Written by Lucy Lim, Planetary Scientist at NASA’s Goddard Space Flight Center

Earth planning date: Friday, July 25, 2025

A 23-meter drive (about 75 feet) brought Curiosity to today’s planned “look-about” spot. The highlight of the plan will be the 360-degree Mastcam panorama that will document the ridge-and-hollow topography of the boxwork-forming unit we’ve been exploring, in addition to overlying stratigraphy in some of the nearby buttes. The right-angle ridge pattern is quite prominent in the HiRISE orbital imaging, which enabled us to plan for this stop. It has been 70 sols since the last panorama, and the rover has driven quite some distance in that time!

Additional detailed imaging was planned with the ChemCam remote imager (RMI) and Mastcam high-resolution M100: mosaics will cover the exposed strata underneath the ridge we’re planning to drive on (“Arequipa Airport”), two linear fractures, one parallel to the large ridge and one cross-cutting it (“Laguna de Salinas” and “Laguna Santa Rosa”), some troughs around a nearby light-toned float block (“Arubai”), and the Uyuni butte in the middle distance.

The bedrock texture here was a noticeable change from the previous workspace, with a knobbly oriented texture interspersed occasionally with platier exposures. Geochemical measurements were planned with the ChemCam LIBS to complement the auto-targeted post-drive AEGIS measurement: “La Coca” on a block that appeared to show unusual colors, and “El Algodón” on a knobbly textured chunk of bedrock. APXS geochemistry was planned with dust removal on the “Yura Tuff” knobbly target and without dust removal on the “Tipnis” target. MAHLI will also provide close-up imaging on the two APXS targets.

For the modern Martian environment, it’s still the cloudy season at Gale so we are planning several cloud-related activities. The Mastcam sky survey will measure abundances of atmospheric dust and water ice, whereas a special cloud altitude observation will include video of clouds and their shadows so that the altitudes and velocities of the clouds and related winds can be calculated. A separate short movie will search for dust lifting (dust devil) activity. Finally, the usual passive REMS and DAN observations will monitor the temperature, humidity, and neutron environment at Curiosity’s current location.

For more Curiosity blog posts, visit MSL Mission Updates

Learn more about Curiosity’s science instruments

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3 min read Curiosity Blog, Sols 4609–4610: Recharged and Ready To Roll Onwards

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5 hours ago

2 min read Feeling the Heat: Perseverance Looks for Evidence of Contact Metamorphism 

Article


6 days ago

3 min read Curiosity Blog, Sols 4607-4608: Deep Dip

Article


6 days ago

Keep Exploring Discover More Topics From NASA

Mars

Mars is the fourth planet from the Sun, and the seventh largest. It’s the only planet we know of inhabited…

All Mars Resources

Explore this collection of Mars images, videos, resources, PDFs, and toolkits. Discover valuable content designed to inform, educate, and inspire,…

Rover Basics

Each robotic explorer sent to the Red Planet has its own unique capabilities driven by science. Many attributes of a…

Mars Exploration: Science Goals

The key to understanding the past, present or future potential for life on Mars can be found in NASA’s four…

As part of her Summer Reading Challenge, Second Lady Usha Vance will host an event for children in grades K-8 on Monday, Aug. 4, at NASA’s Johnson Space Center in Houston.Credit: White House

As part of her Summer Reading Challenge, Second Lady Usha Vance will host an event for children in grades K-8 on Monday, Aug. 4, at NASA’s Johnson Space Center in Houston. Media are invited.

NASA astronaut Suni Williams will join Ms. Vance to read a space-related book to children and participate in other space-related activities.

Live coverage of the reading will stream about 2:45 p.m. EDT on NASA+. Learn how to watch NASA content through a variety of platforms, including social media.

U.S. media interested in participating in this event must RSVP to NASA Press Secretary Bethany Stevens at: bethany.c.stevens@nasa.gov, as well as Office of the Second Lady Communications Director Nicole Reeves at: nicole.e.reeves@ovp.eop.gov. Requests must be made no later than 1 p.m. EDT on Thursday, July 31. Confirmed media will receive additional details from NASA. The agency’s media accreditation policy is online.

Through her reading challenge, the Second Lady is encouraging youth to seek adventure, imagination, and discovery between the pages of a book. Students interested in participating in the challenge must read 12 books by Friday, Sept. 5. Additional details, including where to download a reading log, and how to submit it to the White House, are available online.

As part of NASA’s Artemis campaign, the agency will send astronauts to the Moon to prepare for future human exploration of Mars, inspiring Golden Age explorers, and ensuring the United States continues to lead in space exploration and discovery.

Learn more about NASA missions online at:

https://www.nasa.gov

-end-

Bethany Stevens / Cheryl Warner
Headquarters, Washington
202-358-1600
bethany.c.stevens@nasa.gov / cheryl.m.warner@nasa.gov

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Details Last Updated Jul 29, 2025 LocationNASA Headquarters Related Terms

• NASA Headquarters
• Johnson Space Center
• Learning Resources

As part of her Summer Reading Challenge, Second Lady Usha Vance will host an event for children in grades K-8 on Monday, Aug. 4, at NASA’s Johnson Space Center in Houston.Credit: White House

As part of her Summer Reading Challenge, Second Lady Usha Vance will host an event for children in grades K-8 on Monday, Aug. 4, at NASA’s Johnson Space Center in Houston. Media are invited.

NASA astronaut Suni Williams will join Ms. Vance to read a space-related book to children and participate in other space-related activities.

Live coverage of the reading will stream about 2:45 p.m. EDT on NASA+. Learn how to watch NASA content through a variety of platforms, including social media.

U.S. media interested in participating in this event must RSVP to NASA Press Secretary Bethany Stevens at: bethany.c.stevens@nasa.gov, as well as Office of the Second Lady Communications Director Nicole Reeves at: nicole.e.reeves@ovp.eop.gov. Requests must be made no later than 1 p.m. EDT on Thursday, July 31. Confirmed media will receive additional details from NASA. The agency’s media accreditation policy is online.

Through her reading challenge, the Second Lady is encouraging youth to seek adventure, imagination, and discovery between the pages of a book. Students interested in participating in the challenge must read 12 books by Friday, Sept. 5. Additional details, including where to download a reading log, and how to submit it to the White House, are available online.

As part of NASA’s Artemis campaign, the agency will send astronauts to the Moon to prepare for future human exploration of Mars, inspiring Golden Age explorers, and ensuring the United States continues to lead in space exploration and discovery.

Learn more about NASA missions online at:

https://www.nasa.gov

-end-

Bethany Stevens / Cheryl Warner
Headquarters, Washington
202-358-1600
bethany.c.stevens@nasa.gov / cheryl.m.warner@nasa.gov

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Details Last Updated Jul 29, 2025 LocationNASA Headquarters Related Terms

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• Johnson Space Center
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April 8, 2025Kenny Contreras April 10, 2025 April 10, 2025 April 10, 2025 On-Site Lodging at Ames The Exchange at Ames operates a variety of lodging options, right on center.

If you’re visiting Ames for an extended period, you’ll need lodging that’s in the area, and affordable. This article will go over the lodging options that we have on-center.

Who May Stay?
Personnel in the following categories are considered eligible:

• APPEL course participants
• ARC college student program participants
• TDY visitors to NASA or other federal agencies on official orders
• Visiting university faculty, post-doctoral students (to NASA only)
• Visitors to ARC or other federal agency on-site contractors to conduct NASA or resident agency related business
• Active duty or reserve-on-active-duty military with orders
• ARC employees conducting business facilitated by overnight accommodation (e.g. ongoing experiment, major conference)
• ARC employees for their personal convenience
• NASA and military service retirees
• Accompanying family members of the above
• NRP Tenants and their guests (foreign nationals must be cleared through security prior to NRP and lodge access)

Making A Reservation

Please contact the front desk for all inquiries.

Business Hours: Monday – Friday, 8:30am – 4:00pm

Phone: (650) 604-8100

Email:  info@nasalodge.com

Check-In: 3:00 PM   (Contactless check-in is available after business hours.)
Check-Out: 11:00 AM

All reservations require an email address and a cell phone number. Credit card information is required prior to check-in by calling the front desk. Cancellations or changes must be done at least 24 hours prior to check-in via email at info@nasalodge.com or calling the front desk at (650) 604-8100. If you fail to cancel your reservation, you will be charged for one night’s stay.

Building 19 Premium King Room

• 24 Remodeled Modern Rooms
• Luxurious Restroom with Walk-in Shower & Towel Warmers
• Central A/C & Heating
• Spacious Closet Space
• Work Desk Space
• Mini Refrigerator with Freezer
• Flat Screen TV with Full DirecTV Access Including HBO, Showtime, Cinemax, Etc.
• In-Room Safe
• Complimentary Coffee & Bottled Water
• Iron & Ironing Board
• Robust Power Outlets USB-A & USB-C
• Dimmable Lighting
• Keyless RFID Entry
• NASA-Connect Accessible
• Free Parking
• Complimentary Breakfast

Building 19- Standard Queen Room

• 20 Remodeled Queen Rooms
• A/C Window Unit
• Heater Unit
• Work Desk Space
• Private Bathroom
• Mini Refrigerator with freezer
• Flatscreen TV
• In-Room Safe
• Iron & Iron Board
• NASA-Connect Accessible
• Free Parking
• Complimentary Breakfast

Buildings 583 A & B Dorms

• Queen & Twin Size Bed Options
• Work Desk Space
• Private Restroom
• Microwave
• Refrigerator with Freezer (Size varies)
• Access Communal Kitchen
• NASA-Connect Accessible
• Flatscreen TV Available in Select Rooms

Back to SVEC Home

SVEC building locations including parking areas. Where to Park at the Event Center We have event spaces in multiple buildings. See below for details.

At the main Event Center in building 3, at the front of the building (East side) there is a large lot with standard and accessible spaces. This is the best place to park as it affords the easiest access to the entry doors, which have an ADA accessible ramp. At the rear of the building, there is a secondary large over-flow lot. As this is on the back side of the building, you will need to walk all the way around to enter through the main entrance, or make arrangements to enter through the ADA accessible doors at the rear of the building.

Inside the NASA security fence, at building N232 and the N201 Syverston Auditorium, there is very little parking available and it is first-come first-serve. We highly recommend walking or carpooling to these locations if you are attending an event in either of them

Please keep in mind that if you are driving in, the driver will need a valid, RealID, drivers license. In addition, everyone in the car must have a valid form of ID; Government issued RealID, valid passport, or other form of accepted identification.

Back to the SVEC Home

April 8, 2025Kenny Contreras April 10, 2025 April 10, 2025 April 10, 2025 On-Site Lodging at Ames The Exchange at Ames operates a variety of lodging options, right on center.

If you’re visiting Ames for an extended period, you’ll need lodging that’s in the area, and affordable. This article will go over the lodging options that we have on-center.

Who May Stay?
Personnel in the following categories are considered eligible:

• APPEL course participants
• ARC college student program participants
• TDY visitors to NASA or other federal agencies on official orders
• Visiting university faculty, post-doctoral students (to NASA only)
• Visitors to ARC or other federal agency on-site contractors to conduct NASA or resident agency related business
• Active duty or reserve-on-active-duty military with orders
• ARC employees conducting business facilitated by overnight accommodation (e.g. ongoing experiment, major conference)
• ARC employees for their personal convenience
• NASA and military service retirees
• Accompanying family members of the above
• NRP Tenants and their guests (foreign nationals must be cleared through security prior to NRP and lodge access)

Making A Reservation

Please contact the front desk for all inquiries.

Business Hours: Monday – Friday, 8:30am – 4:00pm

Phone: (650) 604-8100

Email:  info@nasalodge.com

Check-In: 3:00 PM   (Contactless check-in is available after business hours.)
Check-Out: 11:00 AM

All reservations require an email address and a cell phone number. Credit card information is required prior to check-in by calling the front desk. Cancellations or changes must be done at least 24 hours prior to check-in via email at info@nasalodge.com or calling the front desk at (650) 604-8100. If you fail to cancel your reservation, you will be charged for one night’s stay.

Building 19 Premium King Room

• 24 Remodeled Modern Rooms
• Luxurious Restroom with Walk-in Shower & Towel Warmers
• Central A/C & Heating
• Spacious Closet Space
• Work Desk Space
• Mini Refrigerator with Freezer
• Flat Screen TV with Full DirecTV Access Including HBO, Showtime, Cinemax, Etc.
• In-Room Safe
• Complimentary Coffee & Bottled Water
• Iron & Ironing Board
• Robust Power Outlets USB-A & USB-C
• Dimmable Lighting
• Keyless RFID Entry
• NASA-Connect Accessible
• Free Parking
• Complimentary Breakfast

Building 19- Standard Queen Room

• 20 Remodeled Queen Rooms
• A/C Window Unit
• Heater Unit
• Work Desk Space
• Private Bathroom
• Mini Refrigerator with freezer
• Flatscreen TV
• In-Room Safe
• Iron & Iron Board
• NASA-Connect Accessible
• Free Parking
• Complimentary Breakfast

Buildings 583 A & B Dorms

• Queen & Twin Size Bed Options
• Work Desk Space
• Private Restroom
• Microwave
• Refrigerator with Freezer (Size varies)
• Access Communal Kitchen
• NASA-Connect Accessible
• Flatscreen TV Available in Select Rooms

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SVEC building locations including parking areas. Where to Park at the Event Center We have event spaces in multiple buildings. See below for details.

At the main Event Center in building 3, at the front of the building (East side) there is a large lot with standard and accessible spaces. This is the best place to park as it affords the easiest access to the entry doors, which have an ADA accessible ramp. At the rear of the building, there is a secondary large over-flow lot. As this is on the back side of the building, you will need to walk all the way around to enter through the main entrance, or make arrangements to enter through the ADA accessible doors at the rear of the building.

Inside the NASA security fence, at building N232 and the N201 Syverston Auditorium, there is very little parking available and it is first-come first-serve. We highly recommend walking or carpooling to these locations if you are attending an event in either of them

Please keep in mind that if you are driving in, the driver will need a valid, RealID, drivers license. In addition, everyone in the car must have a valid form of ID; Government issued RealID, valid passport, or other form of accepted identification.

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Generic Calendar Upcoming Events for the Public Check below for upcoming events that are open to the public being held at the Event Center SundayMondayTuesdayWednesdayThursdayFridaySaturday Back to SVEC Home

New Electronic Ames Research Center sign a the corner of Arnold Avenue. Visiting the Event Center

Due to the nature of being a NASA facility, there are some special considerations that must be taken into account.

Traveling To & From
The Event Center is located on the publicly accessible side of the Ames campus. If you plan to arrive via ride share, please be aware that the vehicle and driver must have a valid RealID Drivers License and vehicle registration documents. All passengers will need valid ID as well.

U.S. Citizens must show a valid, officially-issued RealID at the NASA Research Park gate to enter onto the NASA Research Park, where the SVEC is located.
All Foreign Nationals must go through NASA badging procedures to attend meetings at the SVEC.

NASA Transfer Technology and Export Control
If you are having NASA speakers and Non-NASA attendees, your speakers must clear the information with the “NASA” Export Control Office.

Back to SVEC Home

Generic Calendar Upcoming Events for the Public Check below for upcoming events that are open to the public being held at the Event Center SundayMondayTuesdayWednesdayThursdayFridaySaturday Back to SVEC Home

New Electronic Ames Research Center sign a the corner of Arnold Avenue. Visiting the Event Center

Due to the nature of being a NASA facility, there are some special considerations that must be taken into account.

Traveling To & From
The Event Center is located on the publicly accessible side of the Ames campus. If you plan to arrive via ride share, please be aware that the vehicle and driver must have a valid RealID Drivers License and vehicle registration documents. All passengers will need valid ID as well.

U.S. Citizens must show a valid, officially-issued RealID at the NASA Research Park gate to enter onto the NASA Research Park, where the SVEC is located.
All Foreign Nationals must go through NASA badging procedures to attend meetings at the SVEC.

NASA Transfer Technology and Export Control
If you are having NASA speakers and Non-NASA attendees, your speakers must clear the information with the “NASA” Export Control Office.

Back to SVEC Home

Credit: NASA

NASA has selected Barrios Technology, LLC, in Houston to provide technical integration services for the agency’s human spaceflight programs.

The Mission Technical Integration Contract is a cost-plus-award-fee and cost-plus-incentive fee contract with core and indefinite-delivery/indefinite-quantity requirements. It has a total estimated value of approximately $450 million, and a period of performance beginning Oct. 1, and ending on Sept. 30, 2027, along with four one-year option periods through 2031.

Under the contract, the contractor will provide technical integration and related services for multiple human spaceflight programs. These services include program, business, configuration and data management, information technology, systems engineering and integration, mission integration, safety and mission assurance, and operations.

For information about the agency and its programs, visit:

https://www.nasa.gov

-end-

Tiernan Doyle
Headquarters, Washington
202-358-1600
tiernan.doyle@nasa.gov

Share

Details Last Updated Jul 28, 2025 LocationNASA Headquarters Related Terms

• Humans in Space
• Johnson Space Center

Credit: NASA

NASA has selected Barrios Technology, LLC, in Houston to provide technical integration services for the agency’s human spaceflight programs.

The Mission Technical Integration Contract is a cost-plus-award-fee and cost-plus-incentive fee contract with core and indefinite-delivery/indefinite-quantity requirements. It has a total estimated value of approximately $450 million, and a period of performance beginning Oct. 1, and ending on Sept. 30, 2027, along with four one-year option periods through 2031.

Under the contract, the contractor will provide technical integration and related services for multiple human spaceflight programs. These services include program, business, configuration and data management, information technology, systems engineering and integration, mission integration, safety and mission assurance, and operations.

For information about the agency and its programs, visit:

https://www.nasa.gov

-end-

Tiernan Doyle
Headquarters, Washington
202-358-1600
tiernan.doyle@nasa.gov

Share

Details Last Updated Jul 28, 2025 LocationNASA Headquarters Related Terms

• Humans in Space
• Johnson Space Center