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By NASA
NASA and its international partners are launching scientific investigations on SpaceX’s 31st commercial resupply services mission to the International Space Station including studies of solar wind, a radiation-tolerant moss, spacecraft materials, and cold welding in space. The company’s Dragon cargo spacecraft is scheduled to launch from NASA’s Kennedy Space Center in Florida.
Read more about some of the research making the journey to the orbiting laboratory:
Measuring solar wind
The CODEX (COronal Diagnostic EXperiment) examines the solar wind, creating a globally comprehensive data set to help scientists validate theories for what heats the solar wind – which is a million degrees hotter than the Sun’s surface – and sends it streaming out at almost a million miles per hour.
The investigation uses a coronagraph, an instrument that blocks out direct sunlight to reveal details in the outer atmosphere or corona. The instrument takes multiple daily measurements that determine the temperature and speed of electrons in the solar wind, along with the density information gathered by traditional coronagraphs. A diverse international team has been designing, building, and testing the instrument since 2019 at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.
Multiple missions have studied the solar wind, and CODEX could add important pieces to this complex puzzle. When the solar wind reaches Earth, it triggers auroras at the poles and can generate space weather storms that sometimes disrupt satellite and land-based communications and power grids on the ground. Understanding the source of the solar wind could help improve space-weather forecasts and response.
A worker prepares the CODEX (COronal Diagnostic EXperiment) instrument for launch.NASA Antarctic moss in space
A radiation tolerance experiment, ARTEMOSS, uses a live Antarctic moss, Ceratodon purpureus, to study how some plants better tolerate exposure to radiation and to examine the physical and genetic response of biological systems to the combination of cosmic radiation and microgravity. Little research has been done on how these two factors together affect plant physiology and performance, and results could help identify biological systems suitable for use in bioregenerative life support systems on future missions.
Mosses grow on every continent on Earth and have the highest radiation tolerance of any plant. Their small size, low maintenance, ability to absorb water from the air, and tolerance of harsh conditions make them suitable for spaceflight. NASA chose the Antarctic moss because that continent receives high levels of radiation from the Sun.
The investigation also could identify genes involved in plant adaptation to spaceflight, which might be engineered to create strains tolerant of deep-space conditions. Plants and other biological systems able to withstand the extreme conditions of space also could provide food and other necessities in harsh environments on Earth.
A Petri plate holding Antarctic moss colonies is prepared for launch at Brookhaven National Laboratory. SETI Institute Exposing materials to space
The Euro Material Ageing investigation from ESA (European Space Agency) includes two experiments studying how certain materials age while exposed to space. The first experiment, developed by CNES (Centre National d’Etudes Spatiales), includes materials selected from 15 European entities through a competitive evaluation process that considered novelty, scientific merit, and value for the material science and technology communities. The second experiment looks at organic samples and their stability or degradation when exposed to ultraviolet radiation not filtered by Earth’s atmosphere. The exposed samples are recovered and returned to Earth.
Predicting the behavior and lifespan of materials used in space can be difficult because facilities on the ground cannot simultaneously test for all aspects of the space environment. These limitations also apply to testing organic compounds and minerals that are relevant for studying comets, asteroids, the surface of Mars, and the atmospheres of planets and moons. Results could support better design for spacecraft and satellites, including improved thermal control, and the development of sensors for research and industrial applications.
Preparation of one of the Euro Material Ageing’s experiments for launch.Centre National d’Etudes Spatiales Repairing spacecraft from the inside
Nanolab Astrobeat investigates using cold welding to repair perforations in the outer shell or hull of a spacecraft from the inside. Less force is needed to fuse metallic materials in space than on Earth, and cold welding could be an effective way to repair spacecraft.
Some micrometeoroids and space debris traveling at high velocities could perforate the outer surfaces of spacecraft, possibly jeopardizing mission success or crew safety. The ability to repair impact damage from inside a spacecraft may be more efficient and safer for crew members. Results also could improve applications of cold welding on Earth as well.
The investigation also involves a collaboration with cellist Tina Guo with support from New York University Abu Dhabi to store musical compositions on the Astrobeat computer. Investigators planned to stream this “Music from Space” from the space station to the International Astronautical Congress in Milan and to Abu Dhabi after the launch.
The Nanolab Astrobeat computer during assembly prior to launch.Malta College of Arts, Science & Technology/ Leonardo Barilaro Download high-resolution photos and videos of the research mentioned in this article.
Melissa Gaskill
International Space Station Research Communications Team
Johnson Space Center
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By NASA
Making the most of a solar eclipse demands attention to detail. Do you have what it takes? NASA’s Eclipse Megamovie project launched a new coding competition, and they need your help to organize images from the April 8, 2024 total solar eclipse. This is your chance to make a lasting contribution to solar science!
The Eclipse Megamovie project asked volunteers to take photos of the total solar eclipse that took place on April 8, 2024 to discover the secret lives of solar jets and plumes. Many jets and plumes seem to disappear or change from the time they are formed on the Sun to when they move out into the solar wind. Thanks to the efforts of over 145 citizen scientists, more than 1 terabyte of photographs were collected and are now being analyzed. These images will help scientists track disappearing jets and plumes, shedding light on how these solar events impact space weather and our understanding of the Sun’s outer atmosphere.
One of the standout volunteers in the Eclipse Megamovie project is Hy Tran, a citizen scientist who earned praise from the science team for his detailed feedback and mentorship of fellow volunteers. “We love working with volunteers like Hy,” said Eclipse Megamovie scientist Hannah Hellman. “They bring passion, experience, and technological knowledge to our projects.”
Superstar volunteer Hy Tran helps mentor other eclipse chasers. You can join the Eclipse Megamovie project now by taking part in a coding competition! Tran’s day job is in metrology—the science of measurement (not to be confused with meteorology!). “In my professional life,” said Tran, “I support a measurement standards and calibration program, so we live by having good procedures!” He also volunteers in technical societies, focusing on standards development, engineering, and technology education. Outside of work, Hy mentors and serves as a local leader in science/technology/engineering/mathematics (STEM) outreach. He loves woodturning and dabbles in amateur astrophotography and underwater photography. The technical challenges of participating in eclipse science projects so far have hit his sweet spot.
Although it will be a while until the next eclipse, the Eclipse Megamovie team still needs your help. Join volunteers like Hy and participate in their coding competition! Your mission is to create the most accurate sorting machine that categorizes a solar eclipse photograph into a specific solar eclipse phase. Not only will your code help organize the massive amounts of data collected, but you’ll also have the chance to win some prizes.
Prizes for the Competition
First Place: Image-stabilized binoculars with solar filters, a feature on the Eclipse Megamovie website, an Eclipse Megamovie Team Patch, a NASA calendar, an Eclipse Megamovie sticker, and a First Prize Certificate. Second and Third Place: A feature on the Eclipse Megamovie website, an Eclipse Megamovie Team Patch, a NASA calendar, an Eclipse Megamovie sticker, and a certificate. Think you’ve got the skills to tackle this challenge? Visit the Eclipse Megamovie project website to sign up today!
For more information, visit the Eclipse Megamovie page at Kaggle: http://kaggle.com/competitions/eclipse-megamovie.
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Last Updated Oct 15, 2024 Related Terms
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By NASA
Showcase your creative side and your research!
They say, “A picture is worth a thousand words.” This year’s ASGSR conference will include an art competition, inviting researchers to bring their science to life through art.
Consider submitting an entry for yourself or encourage your students to enter, too! Entries will be displayed at the 2024 ASGSR conference. Awards will be announced at the 2024 ASGSR Banquet on December 7, 2024.
Suggested subjects or themes: Your investigations or an interpretation of “Thriving in Space,” the National Academies’ Decadal Survey title.
Award categories:
Cover of the ASGSR’s 2025 Open-Access journal Gravitational and Space Research, selected by the GSR Editorial Board Artistic Merit award, as voted by ASGSR conference attendees Technical Merit, as voted by ASGSR conference attendees Criteria:
To participate, at least one of the artists is required to be a registered attendee at the meeting and the art must be physically displayed during the meeting. We recommend you mount your art with a rigid backing or frame, so it stands up on the provided easel, with a maximum size no greater than 25 x 16 inches. If traveling by air, please make sure to consider luggage size. The display should include a title of the piece, artists/affiliations and a brief explanation (a few sentences). Voting will be by Title, so please try to use a concise and catchy title that is easy to write on the ballot. Similar to what one would see in an art gallery, the quality of printing, use of border, frames, 3D effects, etc., can significantly enhance the visual and professional appeal of your artwork. Eligible entries for the GSR Journal Cover and Technical Merit must be original scientific imagery. Eligible entries for Artistic Merit can include images (photographs or computer-generated), paintings, drawings, or sketches of gravitational and space research phenomena. Rearrangement, assembly, or other creative mixing of images into an art-form is appropriate and encouraged only for the Artistic Merit category, whereas the GSR Journal Cover entries must be original imagery. Additional information:
You are expected to set up your display at the meeting site at the start of the conference and remove it by the end of the meeting. ASGSR will provide easels for your art displays. ASGSR cannot guarantee the security of your artwork while on display at the hotel. Submission indicates your permission for your artwork to be displayed on the ASGSR website. “Thriving in Space” entries may be featured in NASA communications products. Submission indicates permission for use of your art without compensation. Each registered attendee will receive an art ballot as part of the registration package. The peer voting will occur throughout the conference until noon Saturday, December 7, 2024. We plan to announce the winners at the banquet.
How to submit your entry: Electronically submit a high-resolution image with a title, list of contributing artists and their affiliations, and brief explanation of your submission to Kelly Bailey at Art.ASGSR@gmail.com by November 8, 2024.
We encourage you to submit an entry and look forward to a very successful event!
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By NASA
6 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
NASA astronauts Michael Barratt, Matthew Dominick, and Jeanette Epps and Roscosmos cosmonaut Alexander Grebenkin are returning to Earth after months aboard the International Space Station conducting scientific experiments and technology demonstrations for the agency’s SpaceX Crew-8 mission. The four launched on March 3 aboard a SpaceX Dragon spacecraft from NASA’s Kennedy Space Center in Florida.
Here’s a look at some scientific milestones accomplished during their mission:
Revealing resistant microorganisms
NASA astronaut Jeanette Epps extracts DNA for the Genomic Enumeration of Antibiotic Resistance in Space experiment, which surveys the station for antibiotic-resistant organisms and sequences their DNA to examine adaptations to space. Results could support development of measures to protect astronauts and people in buildings and facilities on Earth, such as hospitals, from resistant bacteria.
NASA Brain organoid models
NASA astronaut Mike Barratt processes samples for Human Brain Organoid Models for Neurodegenerative Disease & Drug Discovery. This investigation uses human brain organoids created with stem cells from patients to study neuroinflammation, a common feature of neurodegenerative conditions such as Parkinson’s disease. The organoids provide a platform to study these diseases and their treatments and to potentially address how extended spaceflight affects the brain.
NASA Bioprinting human tissues
Tissue samples bioprinted in microgravity are higher quality than those printed on the ground. NASA astronaut Matthew Dominick processes cardiac tissue samples for the Redwire Cardiac Bioprinting Investigation. Results could advance the production of organs and tissues for transplant and improve 3D printing of foods and medicines on future long-duration space missions.
NASA Growing better drugs
NASA astronaut Mike Barratt works on Pharmaceutical In-space Laboratory – 02, which uses the station’s Advanced Space Experiments Processor to study how microgravity affects the production of various types of protein crystals. The ability to produce better crystals could lead to manufacturing improvements and new applications and better performance for pharmaceutical compounds, potentially providing more positive patient experiences.
NASA Alloy solidification
NASA astronaut Jeanette Epps works on Materials Science Lab Batch 3a, two projects investigating the solidification of metallic alloys in space. Insights gained could help improve alloy solidification processes on the ground, supporting the development of materials with superior chemical and physical properties for applications in space and on Earth.
NASA Fueling the flames
The Solid Fuel Ignition and Extinction- Growth and Extinction Limit investigation determines how fuel temperature affects material flammability. This image shows the fuel surface during a burn (the black part of the sphere) and the distance traveled by the flame (blue). Results could improve researchers’ understanding of fire growth and inform the development of optimal fire suppression techniques to protect crews on future missions.
NASA Very long-distance calls
NASA astronaut Jeanette Epps wraps up an ISS Ham Radio session on April 10, with students in Italy. The program connects students and enthusiasts with astronauts in space via amateur radio. Participants study space, radio waves, and related topics to prepare questions before their scheduled call.
NASA Student robotics competition
For Astrobee-Zero Robotics, students compete to have their code control one of the space station’s Astrobee robots. The experience helps inspire the next generation of scientists, engineers, and explorers. NASA astronaut Mike Barratt works with the Astrobee robot named Bumble during operations for the project.
NASA Immune function in space
NASA astronaut Jeanette Epps prepares samples for Immunity Assay, a study of how spaceflight affects immune function. Previously, astronaut immune function could only be examined pre- and postflight, but a newly developed assay allows for testing during flight. This capability provides a more precise assessment of the immune changes that happen in space.
NASA Getting weighed in weightlessness
The Space Linear Acceleration Mass Measurement Device calculates a crew member’s mass based on Newton’s Second Law of Motion, which states force equals mass times acceleration. NASA astronaut Matthew Dominick performs maintenance on the device, used in support of multiple NASA and ESA (European Space Agency) investigations on how spaceflight affects the body.
NASA Satellites for science
NASA astronaut Mike Barratt prepares for the Nanoracks Cubesat Deployer Mission 27on April 16. The mission deployed seven research satellites: a reflectometer to measure sea ice, tests of telemetry instruments and solar cells, a hyperspectral thermal imager, a gamma-ray burst detector, a new remote sensing technique, and a magnetic field measurement test.
NASA Remote-controlled robots
NASA astronaut Jeanette Epps remotely manipulates a robot on the ground for Surface Avatar. The investigation tests system ergonomics, operator response to feedback, and the potential challenges for actual orbit-to-ground remote control. Such operation is an important capability for future exploration missions to the Moon and Mars.
NASA The power of photographs
NASA astronauts Mike Barratt, Matthew Dominick, and Loral O’Hara take photographs in the station’s cupola, adding to the more than 4.7 million images produced for Crew Earth Observations. These images support scientific studies on topics ranging from aquatic organisms and icebergs to the effects of artificial lighting at night and inform the response of decision-makers to natural disasters such as volcanoes and floods.
NASA Reflections on the Moon
For Earthshine from ISS, astronauts photograph the Moon throughout the lunar cycle to study changes in the light it reflects from Earth. Results could help validate the concept of observing Earth’s climate from satellite-borne instruments and add to researchers’ understanding of how the planet’s climate is changing.
NASA Packing a Dragon
NASA astronauts Matthew Dominick and Tracy C. Dyson pack frozen samples into the SpaceX Dragon spacecraft for return to Earth and analysis by researchers. The spacecraft launched to the orbiting laboratory on March 21 for NASA’s SpaceX 30th commercial resupply services mission, carrying scientific experiments and supplies, and returned to Earth on April 30.
NASA Cygnus delivers
Northrop Grumman’s Cygnus cargo spacecraft attached to the Canadarm2 robotic arm before being released from the space station on July 12. NASA’s Northrop Grumman 20th commercial resupply services mission arrived Feb. 1 with experiments on 3D printing, robotic surgery, tissue cartilage, and more.
NASA Melissa Gaskill
International Space Station Research Communications Team
NASA’s Johnson Space Center
Download high-resolution photos and videos of the research mentioned in this article. Search this database of scientific experiments to learn more about those mentioned in this article.
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