Episode Highlights
- **NASA Cancels Viper Lunar Rover Mission**: NASA has officially canceled the Viper lunar rover mission, initially aimed at exploring the moon's south polar region. Persistent supply chain issues and cost overruns were major factors. While the rover is fully assembled, NASA is exploring the possibility of offering it to US industry and international partners for future lunar exploration.
- **Deorbiting the ISS**: NASA has unveiled plans to deorbit the International Space Station using a vehicle developed by SpaceX. This move will bring a controlled and safe conclusion to two decades of remarkable achievements aboard the ISS. SpaceX’s Dragon spacecraft will be adapted for this mission, ensuring a precise and safe reentry.
- **Hot Jupiter Progenitor Discovered**: Astronomers have pinpointed a hot Jupiter in the making, known as TIC 241-24-9530 b. This planet, situated about 1100 light-years from Earth, has the most eccentric orbit ever recorded and is expected to evolve into a hot Jupiter over a billion years. The discovery sheds light on the life cycle of these extreme planets.
- **Preserving ISS Artifacts**: NASA is now considering preserving small artifacts from the International Space Station, marking a reversal of their previous stance. Items like the ship’s bell, logs, and display panels may be saved as mementos, ensuring that the ISS's legacy is immortalized in museums.
NASA Cancels Viper Lunar Rover Mission
NASA has officially pulled the plug on the Viper lunar rover mission, originally scheduled for a November launch. Persistent supply chain issues and cost overruns were cited as the main reasons. The mission, aimed at exploring the moon's south polar region, was delayed multiple times, pushing potential landing to 2025. Despite the cancellation, NASA is exploring the possibility of offering the rover to US industry and international partners.
Deorbiting the ISS
NASA has unveiled plans to deorbit the International Space Station using a vehicle developed by SpaceX. This move will bring a controlled and safe conclusion to two decades of remarkable achievements aboard the ISS. SpaceX’s Dragon spacecraft will be adapted for this mission, ensuring a precise and safe reentry. The mission will see the ISS drift downwards before the crew finally exits, about six months prior to the final reentry.
Hot Jupiter Progenitor Discovered
Astronomers have pinpointed a hot Jupiter in the making, known as TIC 241-24-9530 b. This planet, situated about 1100 light-years from Earth, has the most eccentric orbit ever recorded and is expected to evolve into a hot Jupiter over a billion years. The discovery, published in Nature, sheds light on the life cycle of these extreme planets and underscores the importance of multi-institutional collaboration in uncovering the mysteries of our universe.
Preserving ISS Artifacts
NASA is now considering preserving small artifacts from the International Space Station, marking a reversal of their previous stance. Items like the ship’s bell, logs, and display panels may be saved as mementos, ensuring that the ISS's legacy is immortalized in museums. NASA is consulting with the Smithsonian National Air and Space Museum to develop a preservation strategy.
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00:00:02
Welcome listeners to another episode of Astronomy Daily with your host Anna. Today,
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we have an exciting lineup of space related news that I'm sure you'll find fascinating.
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From updates on NASA's lunar missions to crucial announcements about the future of the
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International Space Station. We have a lot to cover, plus we'll dive into
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some groundbreaking discoveries in planetary science, including the identification of a hot Jupiter progenitor.
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So sit back, relax, and prepare to journey through the latest and
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most intriguing developments in the world of astronomy and space exploration. Let's get started.
00:00:41
NASA has officially pulled the plug on the VIPER Lunar Rover mission, which
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was aimed at exploring the Moon's south polar region. Originally scheduled for a November
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launch, VIPER, or the Volatiles Investigating Polar Exploration Rover, was designed to
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search for ice and other resources in the Moon's cold, shadowy craters. It
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was supposed to touch down on the lunar surface aboard the Griffin Lander, developed
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by Astrobotic as part of NASA's Commercial Lunar Services program. The plan was for
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Viper to traverse about twenty kilometers over the course of one hundred days, navigating
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in and out of permanently shadowed areas. So what happened. During a press
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conference on July seventeenth, NASA announced the mission cancelation, citing persistent supply chain
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issues as one of the main culprits. Joel Hearns from NASA HQ highlighted the
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numerous delays in receiving key components, which consequently delayed the assembly, integration,
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and testing phases of the vehicle. Although negotiations had pushed the launch date to
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know earlier than November twenty twenty four, more delays loomed, pushing a potential
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twenty twenty five landing, which would coincide with the lunar Southpool summer with more
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sunlight available. This ongoing cycle of delays risked affecting subsequent commercial missions as well.
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Cost overruns added another layer of complexity. Initially, the mission was budgeted
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at four hundred and thirty three point five million dollars with a twenty twenty three
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launch in mind. With the push to twenty twenty four, the cost swelled
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to five hundred and five point five million dollars and a twenty twenty five launch
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would have raised the budget to a staggering six hundred and nine point six million
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dollars. Out of this, about four hundred fifty million dollars had already been
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spent. The rover itself is fully assembled, but the specter of future unknown
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costs, including more delays and potential fixes, made the project untenable within NASA's
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constrained budget environment. Interestingly, the termination of the Viper mission might not spell
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the end for the rover altogether. NASA is willing to open up the use
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of Viper and its scientific instruments to US industry and international partners. Expressions of
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interest are due by August first, making it possible that VIPER might still contribute
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to lunar exploration in some form. Meanwhile, the Griff and Lander initially set
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to carry VIPER will still proceed with carrying several private payloads and is slated for
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a Moon mission in fall twenty twenty five. Other companies like Firefly Aerospace and
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Intuitive Machines are preparing for lunar launches later this year. This decision underlines the
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harsh realities and complexities involved in space missions, balancing scientific ambition with fiscal and
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logistical constraints. NASA has unveiled plans to deorbit the International Space Station using a
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vehicle developed by SpaceX as the end of ISS its operational life approaches. This
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move is set to bring a controlled and safe conclusion to two decades of remarkable
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achievements and scientific breakthroughs conducted aboard the orbiting laboratory. The ISS, originally set
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to be replaced in the twenty thirty s, will not merely fall out of
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the sky. Instead, SpaceX's newly commissioned re entry vehicle will manage the entire
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deorbit process over a period of twelve to eighteen months. This timeline begins when
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the ISS starts its descent from its typical orbit at two hundred and fifty miles
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above Earth to roughly one hundred and thirty six miles, a safer distance for
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human rated vehicles. SpaceX's deorbit vehicle, based on the Dragon spacecraft design,
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is an adaptation of the technology that has been ferrying cargo to the ISS since
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twenty twelve and crew since twenty twenty. The key enhancements include robust trunk sections
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equipped with additional propellant tanks, specialized engines, and customized avionics. This pivotal
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role of SpaceX further solidifies its leadership in space operations, aided by its vertically
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integrated supply chain, which gives it a notable edge over competitors like Northrop Grumman.
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NASA disclosed that it has an agreement with SpaceX promising up to eight hundred
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and forty three million dollars for the development of this vehicle, though this figure
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excludes launch costs. This mission will see the ISS drift downwards before the crew
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finally exit It's about six months prior to the final re entry. By that
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time, the ISS would have descended to about one hundred and thirty six miles
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above Earth, setting the stage for the final maneuvers to bring it down safely.
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Sarah Walker, director of Dragon Mission Management at SpaceX, expressed confidence in
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leveraging Dragon's rich flight history for this mission. The use of NASA certified hardware
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for critical systems reduces risks and improves the likelihood of a successful deorbit operation.
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As the deorbit vehicle guides the ISS into Earth's atmosphere, the bulk of the
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station will burn up, with any remaining fragments expected to fall into a designated
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remote ocean location. This careful planning ensures minimal impact and adheres to international safety
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guidelines and practices. NASA's decision to use SpaceX for this nuanced and complex task
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was influenced by SpaceX's extensive experience and the reliability of its equipment. Beyond the
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technical aspects, this mission highlights an important transition in space exploration. The end
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of the ISS era paves the way for the next generation of commercial space stations
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and platforms. While fulfilling its role, the ISS has become an irreplaceable part
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of space history. As its operational life winds down, NASA and its partners
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are working meticulously to ensure a safe and dignified end. The ISS partners,
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including nations like Russia, which is committed to stay until at least twenty twenty
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eight, will also have their parts to play in this concluding chapter. The
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goal remains to sustain constant progress in space experiments while minimizing any disruptions up until
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the very final moments. In summary, this maneuver, facilitated by SpaceX's cutting
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edge vehicle, marks a significant step in space exploration history. It showcases the
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intersection of advanced technology and meticulous planning while honoring the legacy of a space station
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that has been a beacon of international cooperation and scientific discovery for more than two
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decades. Moving forward, the less learned and the technological advances made during the
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ISS's tenure will undeniably shape the future of human space exploration. Hot Jupiters are
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undoubtedly some of the most intriguing and extreme planets we've discovered in our galaxy.
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These planets, roughly as massive as Jupiter, have blistering orbits that bring them
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remarkably close to their host stars, completing their trips in just a few days.
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However, one long standing mystery has puzzled scientists. Were these hot Jupiters
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always broiling on the cosmic stove or did they start off much cooler? Astronomers
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at MIT, Penn State University, and various other institutions have pinpointed a hot
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Jupiter in the making, effectively catching a planet in the act of becoming one
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of these incredible celestial objects. The findings published in Nature signal a significant leap
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in our understanding of how these enigmatic planets evolve. So who are the key
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players in this discovery. Co authors of this groundbreaking research include MIT undergraduate Hatum
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m and lead author Arvind Gupta, along with a host of collaborators from numerous
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universities, institutions, and observatories. Their collective efforts unearthed a new planet known
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as Tick two four one two four nine five three zero B, situated about
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one thousand, one hundred light years from Earth. This planet boasts the most
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eccentric orbit ever recorded, and its uniquely positioned to answer many questions about hot
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jupiters. To visualize this, let's picture the planet's journey. Tick two four
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one two four nine five three zero B swings extremely close to its star,
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then dramatically flings itself far out into space before reversing course and repeating the cycle
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in a narrow elliptical orbit. If you mapped this orbit within our Solar System,
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the planet would dive ten times closer to the Sun than Mercury before hurdling
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past Earth and looping back around. But what is truly unique about this planet
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isn't just its eccentric orbit. It's also its retrograde motion. Unlike the planets
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in our Solar System, which orbit in the same direction as the Sun's rotation,
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Tick two four one two four nine five three zero b orbits against the
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rotation of its star. This setup provides a valuable snapshot of high eccentricity migration,
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a process where a planet's orbit wobbles and tightens over time due to gravitational
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interactions. In the case of Tick two four one two four nine five three
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zero B, it orbits a primary star that circles a secondary star, forming
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a binary system. The gravitational dance between these two stars is causing Tick two
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four one two four nine five three zero B to spiral closer to its primary
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star as the orbit shrinks and becomes more circular. Over astronomically long periods around
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a billion years, the planet will transform into a hot jupiter whirling around its
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star every few days. This evolution is far from a smooth ride. Mill
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Holland, an assistant professor of physics at MIT, describes it as radical seasons.
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The planet endures dramatic changes in starlight, scorching its atmosphere each time it
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nears its star. It's an orbital evolution so extreme that it almost reads like
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science fiction. NASA's Transiting Exoplanet Survey satellite tests initially detected Tick two four one
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two four nine five three zero B On January twelfth, twenty twenty, Arvind
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Gupta's team at Penn State corroborated this finding with other observatories, confirming both the
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planet's size and its highly eccentric orbit through radial velocity measurements. These measurements revealed
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the gravitational tug that this giant planet exerts on its star, lending further insight
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into its unusual trajectory. Simulations of orbital dynamics played a crucial role in understanding
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Tick two four one two four nine five three zero b's past and future.
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By running these models, middled and m could trace the planet's evolution from a
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cold jupiter initially far from its star, toward its destiny as a hot jupiter.
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These models suggest that the planet's highly elliptical and retrograde orbit results from gravitational
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forces within the binary star system. This finding supports the theory that high eccentricity
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migration accounts for the formation of many hot jupiters. Mill Holland eloquently summed this
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up by saying, this system highlights how incredibly diverse exoplanets can be. They
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are mysterious other worlds that can have wild orbits that tell a story of how
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they got that way and where they're going. So what does this mean for
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our understanding of planetary evolution? This study not only sheds light on the life
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cycle of hot jupiters, but also underscores the importance of multi institutional collaboration and
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cutting edge simulations in uncovering the mysteries of our universe. And as Tick two
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four one two four nine five three zero B continues its perilous dance, it
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offers us a window into the complex and dynamic processes that shape planetary systems.
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NASA is now considering preserving small all artifacts from the International Space Station, marking
00:12:03
a reversal of their previous stance that no ISS components would be saved. Two
00:12:07
years ago, the agency had declared no plans to save artifacts from the orbiting
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lab. However, the tides are changing, and NASA officials are pondering what
00:12:18
small parts of the ISS could be preserved as mementos. During a recent media
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briefing, Ken Bauersock's NASA's Associate administrator for Space Operations and a former ISS commander,
00:12:30
spoke about the station's immense impact over its twenty five year history. He
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emphasized that the ISS has become a significant part of human spaceflight, accounting for
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almost half of the sixty years we've spent in space. For many the ISS
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symbolizes international cooperation, groundbreaking scientific experiments, advancements in human research, complex assembly
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in space, and valuable insights into the effects of microgravity on the human body.
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NASA initially considered raising the ISS into a higher orbit where it could wait
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without a crew until a future intact preservation effort became feasible. However, the
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propellant requirements were deemed too high and the risk of debris impacts could potentially leave
00:13:11
the remaining structure in pieces. Hence, they opted for a controlled re entry
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utilizing a SpaceX Dragon derived USD orbit vehicle equipped with forty six engines. Interestingly,
00:13:24
while large modules or trust segments won't make it back to Earth, smaller
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and more symbolic items might. NASA's revised plan now includes consultations with the Smithsonian
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National Air and Space Museum as well as other organizations to develop a preservation strategy.
00:13:39
Items considered for preservation include the ship's bell, ship's logs, display panels
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adorned with patches, and other meaningful mementos. NASA currently does not intend to
00:13:50
allocate any dedicated missions solely for returning hardware, but expects that towards the ISS's
00:13:56
end of life there could be enough flexibility to return certain items. This will
00:14:00
happen as the need to service or refurbish the equipment diminishes. Dana Weigel,
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NASA's ISS program manager, mentioned that returning memorabilia would be feasible as the mission
00:14:11
requirements shift from operational needs to historical preservation. Other US operating Segment partners,
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like the European Space Agency, the japan Aerospace Exploration Agency, and the Canadian
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Space Agency also have their respective allocations for upmass and return mass. These agencies
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may decide independently what artifacts they wish to preserve. Unfortunately, similar arrangements do
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not exist with Roscosmos, Russia's Space Agency, as part of the ISS program's
00:14:41
international barter setup. Ultimately, deciding which artifacts to prioritize for preservation will involve
00:14:48
significant collaboration and negotiation among all partners. There's a potential for tension between scientific
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priorities and the desire to save poignant relics of the ISS's storied history, but
00:15:00
NASA is confident that a fair and effective process will emerge, so as the
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ISS nears the end of its operational life, prepare to see some of its
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pieces immortalized in museums, serving as enduring reminders of humanity's continuous quest to explore
00:15:15
the cosmos. Thank you for tuning in to Astronomy Daily with Anna. I
00:15:22
hope you enjoyed today's episode and found our cosmic updates as fascinating as we did.
00:15:26
Remember, the universe is constantly evolving and there's always something new to discover.
00:15:31
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