The Axiom 4 mission is apparently back on track after two unrelated leaks—one in orbit and one on the ground—were resolved, clearing the way for the launch of Axiom Space’s next private mission to the International Space Station.
SpaceX plans to launch a Falcon 9 rocket carrying a new Crew Dragon capsule with four private astronauts aboard for the Ax-4 mission. No official launch date or time has been set yet, but there has been some speculation about a Thursday pre-dawn liftoff at 4:53 AM ET. Given the lack of any official notifications of the launch attempt, it seems highly unlikely one will happen on that date.
The mission faced multiple delays last week. Poor weather conditions offshore in the ascent corridor scrubbed a planned Monday launch, and a liquid oxygen leak discovered in the rocket’s first-stage booster pushed back Tuesday’s attempt. SpaceX conducted a successful retest of the booster last Thursday, confirming the leak had been fixed.
The International-Space-Station-in-2021
Photo: NASA
Just as that issue was resolved, NASA put another hold on the launch due to a long-standing problem on the International Space Station: a years-old leak on the Russian segment. Engineers needed time to confirm recent repairs had sealed it for good. On Saturday, NASA reported that pressure in the affected area had stabilized—a sign that the small leaks may finally be closed.
While Russia’s space agency Roscosmos continues to monitor the situation, NASA has cleared SpaceX and Axiom Space to proceed towards a launch of Axiom 4, but again, no official announcement of a day or time has been made by NASA, SpaceX or Axiom Space.
A lunar lander that launched from KSC in January will attempt to land on the surface of the moon this afternoon.
On January 15, 2025, at 1:11 a.m. EST, Japanese space company ispace launched its RESILIENCE lunar lander aboard a SpaceX Falcon 9 rocket from Kennedy Space Center in Florida. This mission, known as Hakuto-R Mission 2, marks ispace’s second attempt to achieve a soft landing on the Moon, following the unsuccessful Hakuto-R Mission 1 in April 2023. RESILIENCE is scheduled to attempt its lunar landing later today, at 3:17 p.m. EDT, targeting the Mare Frigoris region near the Moon’s north pole.
Launch of Hakuto-R RESILIENCE on January 15, 2025 aboard a SpaceX Falcon 9 Photo: Charles Boyer / Talk of Titusville
Mission Objectives
First of all, a successful soft landing with the spacecraft in its intended orientation on the lunar surface. Many commercial companies have attempted this, with only one – Firefly Aerospace’s Blue Ghost – being fully successful this far.
iSpace’s own Hakuto-R Mission 1 is among the failed landers, as the lander plummeted uncontrollably when its propellant was exhausted. This near-fatal anomaly was due to the spacecraft’s onboard computer wrongly assuming its radar altimeter was faulty. The spacecraft’s computer ignored this data, and as a result misjudged the actual altitude of the spacecraft and kept hovering 5 km above the surface of the Moon.
iSpace founder and CEO Takeshi Hakamada recently spoke about the RESILIENCE mission, saying yesterday, “I am very proud to announce that once again, on June 6, 2025, JST, ispace will attempt a historic landing on the Moon as part of Mission 2, ‘SMBC x HAKUTO-R VENTURE MOON.’”
“Just over two years ago, on April 26, 2023, ispace, operating HAKUTO-R Mission 1, became the first private company in the world to attempt a lunar landing. While the mission achieved significant results, we lost communication with the lander just before touchdown,” Hakamada said.
“Since that time, we have drawn on the experience, using it as motivation to move forward with resolve. We are now at the dawn of our next attempt to make history,” he concluded.
Today, the company will find out if its remediations and improvements from the first HAKUTO-R mission have been fruitful.
Live Stream
Today’s landing attempt will be streamed live on ispace’s YouTube channel. Tune in about an hour before the scheduled touchdown when coverage is set to begin.
Post-Landing
Once RESILIENCE lands, it will deploy and/or utilize several payloads aimed at advancing lunar exploration:
TENACIOUS Micro Rover: Developed by ispace’s European subsidiary, this 5-kilogram rover is equipped with a high-definition camera and a shovel to collect lunar soil samples. The rover will conduct in-situ resource utilization demonstrations, including regolith extraction, and relay data back to the lander.
Moonhouse Art Installation: A miniature Swedish-style red house created by artist Mikael Genberg, symbolizing human aspiration and creativity, will be deployed on the lunar surface.
UNESCO Memory Disk: RESILIENCE carries a disk containing 275 human languages and cultural artifacts, aiming to preserve human heritage in the event of a global catastrophe.
Additionally, ispace plans to transfer ownership of collected lunar regolith to NASA, marking the first commercial transaction of lunar resources to date.
This photo of the moon was taken by the RESILIENCE spacecraft. Photo: iSpace
About iSpace
Founded in 2010 by Takeshi Hakamada, ispace is a Tokyo-based private space exploration company with a stated vision of expanding human presence into space. The company aims to develop a sustainable lunar economy by providing low-cost, high-frequency transportation services to the Moon. With offices in Japan, Luxembourg, and the United States, ispace employs over 300 people worldwide.
ispace’s long-term goal includes establishing a lunar colony of 1,000 inhabitants by the 2040s, utilizing the Moon’s water resources for fuel production and supporting a space-based economy.
iSpace graphic of the overall mission plan for Mission 2 courtesy iSpace
Starship Flight 8 liftoff March 6 2025.
Photo: Richard Gallagher / FMN
What They Learn In Texas Will Inform Starship Sound Modeling For the Space Coast
As SpaceX’s Starship prepares for an ambitious launch schedule here at on the Space Coast at Kennedy Space Center, residents’ concerns about its acoustic impact on surrounding communities and environments have come to the forefront.
Dr. Kent Gee Photo: BYU
Dr. Kent Gee, a physics professor and Department Chair of the Physics and Astronomy department at Brigham Young University (BYU) leads a team dedicated to understanding the noise generated by this powerful rocket. He and his team of researchers have conducted sound studies for Starship in Texas and the SLS at Kennedy Space Center, yielding some interesting results.
SpaceX has stated that they plan to launch Starship from KSC this year, and indeed, construction of the launch mount for the world’s most powerful rocket continues apace at LC-39A. While a Starship launch from the Space Coast in 2025 may be an ambitious plan, it is safe to say that within the next year the area will see, hear and feel this rocket as it climbs off the launch pad and makes its way to orbit from Florida.
Artemis Testing
“I took the students to church and we were talking to people at Merritt Island,” Dr. Gee related to Talk of Titusville. “They said, oh, you’re from BYU, what are you doing here?”
“Everyone, every single person we talked to said they wanted to tell us that some Falcon 9 launches like rattled their windows and other ones you didn’t hear at all.”
Such stories are common on the Space Coast. Some days, one may barely hear a Falcon 9 in some areas of the region, while others in other places watching the same launch from a different place might report their windows rattling or their dog barking because of the thunder-like sound of the ascending rocket.
Measuring the acoustic impact of rockets like Starship is complex due to factors like atmospheric conditions and the rocket’s trajectory. Dr. Gee’s team utilizes various sound metrics, including A-weighted and Z-weighted Decibels, to capture a comprehensive picture of the noise levels. Their findings suggest that current environmental assessments may underestimate the true acoustic impact of such launches.
Dr. Gee told us “there’s a paper that we published on the Artemis I launch. We went due west [from the launch site.] I had people sitting there [about 30 km] due west.”
“I was on the other side of the Indian River south of Titusville, about 30 kilometers, basically southwest of [the launch pad.] We were about the same distance [as the team that was due west.] I got about 100 decibels where I was.”
The team located due west? Dr. Gee explained, “They didn’t even hear the noise at 30 kilometers.”
That may seem odd, but again, sound propagation is affected by a number of factors: local weather, winds, ambient humidity and of course the direction the rocket is flying.
Dr. Gee explained that the sound he experienced from Artemis was like many other launches with “Low frequencies. It was not quiet, but because it was such low frequencies, it wasn’t like overwhelmingly loud, but it was it was about what I expected, having been to prior launches and guessing.”
(a) Google Earth image annotated to show the measurement stations analyzed in this letter and their distances from LC-39B, as well as other locations of interest: SLS (not to scale) at LC-39B, the Vehicle Assembly Building (VAB), Saturn-V viewing area, and the Crawlerway between the VAB and LC-39B. Shown also are the maximum 1-s OASPLs at each station after liftoff. (b) A four-microphone array at Station 7, in the middle of the Crawlerway. (c) A closeup of a weather-robust microphone ground plate setup at Station 3, with SLS in the background. From: “Space Launch System acoustics: Far-field noise measurements of the Artemis-I launch” Gee, Kent & Hart, Grant & Cunningham, Carson & Anderson, Mark & Bassett, Michael & Mathews, Logan & Durrant, J. & Moats, Levi & Coyle, Whitney & Kellison, Makayle & Kuffskie, Margaret. (2023). Space Launch System acoustics: Far-field noise measurements of the Artemis-I launch. JASA Express Letters. 3. 023601. 10.1121/10.0016878.
Dr. Gee added that “At [some places] 50 km [from the launch site,] it was like 80 Decibels and so it was like it hit like right across the Indian River. Maybe because the land mass was warmer and so you got upward refraction [of the noise] and then it bent back down.
Basic diagram of a rocket’s noise emissions. Via: FAA
“There’s some complicated stuff going on,” he added.
That would explain the wildly varying accounts of how loud Artemis I was in different parts of the Space Coast region. Some said it was almost quiet, others reported a teeth-chattering experience. It all depended on where the observer was located and whether the local conditions were favorable to sound traveling from the ascending SLS rocket to where they were.
How Loud Will Starship Seem?
Dr. Gee’s research in Texas reveals that a single Starship launch produces noise levels equivalent to 4–6 Space Launch System (SLS) launches or at least 10 Falcon 9 launches. Measurements taken during Starship’s fifth and sixth test flights indicated that even at distances of 10 kilometers, the sound was as loud as a rock concert. At 20 kilometers, it matched the noise level of a table saw or snow blower, and at 30–35 kilometers, it was comparable to a vacuum cleaner or hair dryer. That’s pretty loud.
“It’s got this low-frequency rumble that’s just overwhelming,” Dr. Gee explained. “And then on top of it, you have this kind of high-frequency popping. I call it crackle. It’s a very unique sound experience.”
The highest-amplitude event at all eight stations is the flyback sonic boom which set off car alarms at Stations 2 (10.1 km) and 4 (16.6 km). A prior Falcon 9 study (Anderson , 2024) shows near the landing pad, maximum launch noise exceeds the flyback boom, but that there is a range (∼2 km for the Falcon 9) beyond which the cylindrically spreading boom’s overpressure becomes larger in amplitude than the spherically spreading launch noise. The booster’s flyback boom’s overpressure of 7.1 psf (0.34 kPa) is part of a clean triple-shock waveform that is similar to Falcon 9’s signature (Anderson , 2024), despite the fact that Falcon 9 has a different geometry. An ongoing investigation into the aeroacoustic origins of Falcon 9’s triple boom, when complete, should also provide insights into the Super Heavy flyback boom.
If that’s reminiscent to old-timers in the area of the venerable Saturn V from the Apollo program, they aren’t far off. Saturn V launches were well known for their low-frequency rumbles, which gave launch spectators the feeling of the Earth shaking below their feet.
The sound power produced by SLS (202.4 dB) is still extremely loud. We compared the launch noise levels recorded at 5 km away from the rocket to the sound levels of a fresh bowl of crackling Rice Krispies® and found that SLS’s noise intensity at this distance from the rocket was approximately 40 million times greater than the crackling of cereal. If this comparison only leaves you more confused, you can think of it being about as loud as operating a chainsaw (but with the rocket over 5 km away).
The intense noise levels in Texas have raised concerns about potential impacts on nearby communities and wildlife there in the lower Rio Grande area and for people here on the Space Coast. Residents have reported instances of car alarms being triggered and windows rattling due to the sonic booms. Dr. Gee emphasizes the need for further studies to understand the long-term effects of repeated exposure to such noise, especially with plans for frequent launches.
An Osprey on the hunt in Merritt Island National Wildlife Refuge Photo: Charles Boyer / Talk of Titusville
Starship Will Be Louder Than Falcon 9
“Titusville, Merritt Island, Cape Canaveral, those, those towns are, are gonna see greater sound levels than what you get with the Falcon 9,” Dr. Gee said.
As for the Starship Heavy noise experienced in Texas, “people are in Port Isabel — about 10 km away in Texas — they’re not reporting broken windows [after a Starship launch,]” he added. 10 km, or about 6.2 miles, is closer than any private property near LC-39A.
FAA diagram of noise from Starship launches
“I even suggested that resident surveys in the Boca Chica region would be helpful in assessing long range impacts.” Then Dr. Gee added, “I have to be careful because I don’t want to make people think that I’m calling out SpaceX saying you should XYZ. To me that’s the FAA or whoever’s job to say you ought to be looking at this because you could be gaining additional data that would be helpful in Florida.”
Dr. Gee added, “We’re trying to put out information that we feel, feel like is helpful to provide a, to paint a realistic picture of where this rocket fits in with other rockets and what sound levels might be expected according to at least the propagation over two flights of what we measured in the field.”
“In a proactive move, the Cape Canaveral City Council unanimously approved an upcoming $10,019 rocket launch impact study with the Florida Institute of Technology. Researchers will install sensor suites this summer at a handful of municipal and privately owned buildings across the 1.9-square-mile city, collecting data on decibel levels, vibrations and air quality before, during and after every launch through at least May 2026.”
Dr. Gee concluded that more data is needed to fully understand the noise effects of rocket launches, “There’s longer term impacts that we just don’t quite understand yet. And I think that’s, there’s opportunities for the science to catch up.” With the City of Cape Canaveral monitoring every launch from preset locations, models that Dr. Gee and the BYU team create will only be more informative.
One thing is certain: the Eastern Range is only going to get busier as more companies conduct more launches with more powerful rockets. While Starship, SLS, and Falcon 9 get all of the attention, New Glenn and Vulcan are also in the mix, and that’s before Relativity, Vaya Space, and others join the fray.
The LC-39A EIS
The ongoing environmental assessment for Launch Complex 39A (LC-39A) at Kennedy Space Center involves SpaceX’s Starship-Super Heavy launch and landings, with an expected high level of activity at the site.
The Federal Aviation Administration (FAA) is preparing an Environmental Impact Statement (EIS), not an Environmental Assessment (EA), due to changes in the vehicle’s design and operations since the 2019 EA, which found no significant impact.
The EIS process was initiated with a Notice of Intent published on May 10, 2024, and scoping meetings were held in June 2024 to gather public input. A release date for the Draft EA has not yet been announced.
SpaceX and NASA launched the CRS-32 mission early Monday morning from Launch Complex 39A at Kennedy Space Center. After an apparently event-free countdown, liftoff was at 04:15:34 AM ET. About 7.5 minutes after liftoff, the booster used for the flight returned to land at Landing Zone 1 at Cape Canaveral Space Force Station.
Overnight tonight, SpaceX and NASA will launch Falcon 9 with a Cargo Dragon bound for the International Space Station. Along with the foodstuffs and normal cargo aboard CRS-32, there are also some thirty experiments that astronauts will conduct aboard the ISS-NL orbiting outpost. One of them will test Albert Einstein’s Theory of Relativity.
NASA and SpaceX are set to launch the 32nd Commercial Resupply mission to the International Space Station from Kennedy Space Center on Monday. Launch time is set for 04:15:34 AM Monday morning in an instantaneous window.
File photo of a Falcon 9 in Dragon configuration on launch LC-39A at KSC Photo: Charles Boyer / Talk of Titusville
The flight Falcon 9’s first stage will land a few miles south at Landing Zone 1 in Cape Canaveral about 7-8 minutes after liftoff. That being said, a sonic boom will rattle the Space Coast area not long after the rumble of the liftoff fades.
This mission marks the 12th under NASA’s Commercial Resupply Services-2 (CRS-2) contract with SpaceX.
SpaceX CRS-32 Mission Details
Mission
SpaceX CRS-32
Organization
SpaceX
Location
Kennedy Space Center, FL, USA
Rocket
Falcon 9
Pad
Launch Complex 39A
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Monday, 04/21/2025 4:15:34 AM EDT
Window Closes
Monday, 04/21/2025 4:15:34 AM EDT
Destination
Low Earth Orbit
Mission Description
The 32nd Commercial Resupply Services mission to the International Space Station operated by SpaceX. This flight, conducted under NASA’s CRS-2 contract, will deliver approximately 6,700 pounds of supplies and payloads, including critical materials to directly support science and research investigations onboard the orbiting laboratory. Notable experiments include studies on nanomaterial production, drug manufacturing advancements, and novel materials for aerospace, defense, energy, and robotics. The Cargo Dragon spacecraft, C209, is scheduled to autonomously dock to the station’s Harmony module and remain for about one month before returning to Earth with research and hardware for analysis.
Weather Forecast
Weather forecasts for Cape Canaveral on Monday indicate mostly cloudy conditions with a high of 81°F (27°C) and a low of 68°F (20°C). These conditions are generally favorable for a successful launch.
Jimmy Taeger, a Launch Weather Officer of the 45th Weather Squadron of Space Launch Delta 45 said today that “Weather is looking really good for early next week. There’s a small chance of a cumulus cloud rule violation.”
“[That chance is] only about 10% for the primary launch day and the backup day, but that means 90% chance that the weather could be good,” Taeger concluded.
Trajectory
Online Viewing
NASA_ will have a livestream of the launch on their website and on YouTube: CRS-32 Launch. Coverage starts about fifteen minutes before liftoff.
Spaceflight Now will have coverage of the launch starting about one hour before liftoff on Youtube: link
For official updates regarding launch times, SpaceX.com is the best source of information. Starlink launch times change from time to time, and the company generally updates their website within minutes of the decision to change the launch time. This is very handy if none of the streaming options on YouTube have started their broadcasts.
Remember that there is a delay between a launch stream and the actual countdown clock. That is simply because of physics: it takes time for the signal to travel from the launch site, through the Internet, and back down to your phone, resulting in a five to fifteen-second delay.
Next Space Flight an app for iOS and Android phones, has a real-time countdown clock that is accurate to a second, give or take. The app is free. Search the App Store or Google Play. They are also on the web: nextspaceflight.com.
Launch Viewing: In Person
The best options for watching the launch: Northern Titusville parks on Washington Avenue / US-1 are your best bets: Space View Park, Sands Park, Rotary Riverfront Park.
The best options for watching the landing: beaches Cherie Down Park or 528W at the Banana River Bridge.
File photo of a Falcon 9 booster beginning its landing burn at LZ-1 at Cape Canaveral Space Force Station.
Photo: Charles Boyer / Talk of Titusville
In the 1960’s digital computers were undergoing a radical change: a switch to integrated circuits and the central processing units (CPUs) that we all know and use today. The Saturn V was no different.
The Saturn V Instrument Unit (IU) served as the rocket’s central guidance and control system, housing the Launch Vehicle Digital Computer (LVDC) developed by IBM. The LVDC utilized magnetic core memory, a non-volatile storage technology composed of tiny magnetized rings that retained data without power. Each core memory module stored 4,096 words, with each word comprising 26 data bits and 2 parity bits, totaling 28 bits per word. These modules were integral to the LVDC’s operation, enabling reliable data storage and retrieval during the mission.
File photo of a Falcon 9 flight from LC-39A Photo: Charles Boyer / Talk of Titusville
United Launch Alliance’s Kuiper KA-01 mission was scrubbed last night due to persistent high winds and offshore showers. SpaceX has the range scheduled for a Starlink launch from KSC this evening, so ULA will be pushed back to at least Monday.
According to ULA CEO Tory Bruno on X.com, “Mighty Atlas’ count was very clean. Unfortunately, weather stayed rough. [We] appreciate support from the USSF Weather team.”
The Monday date is pending Eastern Range approval, among others, and may shift. As always, stay tuned.
Starlink 12-17
SpaceX is planning to launch another set of Starlink satellites to orbit from pad LC-39A at Kennedy Space Center this evening. The launch window opens at 9:54 PM ET and extends to 1:43 AM Friday morning. According to SpaceX, “If needed, additional launch opportunities are also available on Friday, April 11 starting at 9:15 p.m. ET.”
Falcon 9 Block 5 | Starlink Group 12-17 Mission Details
Mission
Falcon 9 Block 5 | Starlink Group 12-17
Organization
SpaceX
Location
Kennedy Space Center, FL, USA
Rocket
Falcon 9 Block 5
Pad
Launch Complex 39A
Status
Go for Launch
Status Info
Current T-0 confirmed by official or reliable sources.
Window Opens
Thursday, 04/10/2025 9:54:40 PM EDT
Window Closes
Friday, 04/11/2025 1:43:00 AM EDT
Destination
Low Earth Orbit
Mission Description
A batch of 21 satellites for the Starlink mega-constellation—SpaceX’s project for a space-based Internet communication system.
After concluding its duty powering the payload towards orbit, the first stage booster, B1083, will land on ASDS ‘A Shortfall of Gravitas’ which will be stationed on the Atlantic Ocean near The Bahamas. Since the booster is not returning directly to the Cape Canaveral region after liftoff, there will not be a sonic book over the Space Coast region.
Weather looks good, with only a 5% chance of a weather-related range violation. That said, it should be a beautiful evening to go to space.
This will be the 10th flight of B1083. Previously, it has launched Crew-8, Polaris Dawn, CRS-31, Astranis: From One to Many, IM-2, and four Starlink missions.
The trajectory is southeast, and Starlink 12-17 will pass just east of The Bahamas on its way to orbit.
ULA Atlas V Kuiper KA-01 Now Slated For Monday
Due to the SpaceX launch, this evening is not an option for United Launch Alliance to fly Atlas V and the Kuiper KA-01 mission. At this point in time, secondary sources (FAA, etc) are pointing to an attempt this coming Monday, April 14th.
Atlas V 551 | Project Kuiper (KA-01) Mission Details
Mission
Atlas V 551 | Project Kuiper (KA-01)
Organization
United Launch Alliance
Location
Cape Canaveral SFS, FL, USA
Rocket
Atlas V 551
Pad
Space Launch Complex 41
Status
To Be Confirmed
Status Info
Awaiting official confirmation—current date is known with some certainty.
Window Opens
Monday, 04/14/2025 7:00:00 PM EDT
Window Closes
Monday, 04/14/2025 11:34:00 PM EDT
Destination
Low Earth Orbit
Mission Description
Project Kuiper is a mega constellation of satellites in Low Earth Orbit that will offer broadband internet access. This constellation will be managed by Kuiper Systems LLC, a subsidiary of Amazon. It is planned to be composed of 3,276 satellites, projected to be placed in 98 orbital planes across three orbital layers at altitudes of 590 km, 610 km, and 630 km.
Keep in mind that is not official, and it could easily change. Stay tuned for any schedule shifts.
SpaceX is set to launch the privately-crewed Fram2 mission aboard a SpaceX Crew Dragon this evening from Launch Complex 39A at Kennedy Space Center. Liftoff is scheduled for 9:46 PM ET, with subsequent launch windows at 11:20 PM ET, followed by 12:53 AM and 2:26 AM on Tuesday, April 1st.
The Fram2 crew. From left, Eric Philips, Rabea Rogge, Jannicke Mikkelsen and Chun Wang, Photo: SpaceX
What Is Fram2?
The mission draws its name from the polar exploration ship Fram, which served Norwegian explorers such as Fridtjof Nansen and Roald Amundsen between 1893 and 1912. Fram became well-known for its polar expeditions, and now resides in a museum in Oslo. While Fram navigated icy waters of Eart’s polar regions, Fram2 will explore those same areas from a polar orbit.
Mission Commander Chun Wang, a Maltese citizen, will lead a diverse crew that includes filmmaker and artist Norway’s Jannicke Mikkelsen as the vehicle commander, Australia’s Eric Philips as the vehicle pilot, and Germany’s Rabea Rogge as a mission specialist.
This will be the crew’s first trip to space.
Trajectory
The trajectory of Fram2 presents a unique challenge and opportunity. Unlike standard launches, this mission will employ a polar trajectory heading southward nearly 90 degrees from its launch site. This has never been done before on a crewed mission, but the trajectory will allow passes over each pole every orbit.
As the spacecraft ascends, it will skirt along Florida’s east coast before crossing the Straits of Florida and flying over Cuba. The trajectory will offer dramatic views as Fram2 passes overhead of the Palm Beach area in south Florida before easing farther offshore. For residents of that region, tonight’s flight will offer them the closest view of a Falcon 9 ascending as they have ever seen.
Weather
The 45th Weather Squadron has not published any Launch Mission Execution Forecast for the mission this evening.
The National Weather Service’s general forecast for Kennedy Space Center is calling for a 30% chance of storms in the area this evening. They continue that the storms are expected to taper off after 9PM, good news for a planned 9:26 PM liftoff so long as the timing of the storms diminishes on time and before final launch preparations begin.
Fram2 Scientific Objectives
Fram2’s mission objectives include investigating “unusual light emissions resembling auroras.” The crew will specifically focus on green fragments and mauve ribbons of light, phenomena that echo the characteristics of STEVE (Strong Thermal Emission Velocity Enhancement), previously noted at altitudes of approximately 400 to 500 kilometers above Earth. This study could provide new insights into atmospheric physics, potentially shining light on phenomena that have puzzled scientists for years.
The Fram2 crew will undertake studies to gain more knowledge of the causes and effects of Space Motion Sickness (SMS), which affects roughly 60% to 80% of astronauts within the first few days of their exposure to microgravity.
Its symptoms mirror those of traditional motion sickness—nausea, vomiting, fatigue, general discomfort, and a loss of appetite. SMS is considered part of Space Adaptation Syndrome (SAS), a broader condition that also includes headaches, back pain, and facial congestion due to fluid redistribution toward the head.
Fram2’s astronauts will also continue the work started by researchers at the Medical University of South Carolina in Charleston. Those researchers are seeking a deeper understanding of the effects on the human body of short-term spaceflights, and the Fram2 crew will undergo before and after MRI tests in order to provide data to that end.
All four Fram2 passengers will undergo the same MRI scans that the Polaris Dawn crew did. This research aims to expand scientists’ understanding of how stints in microgravity, which is known to shift fluids in the brain, affect astronauts.
Additionally, the Fram2 astronauts will study blood flow, bone health, glucose regulation, cognition and other effects and procedures of spaceflight. The official list of experiments is below:
It was a good day to have a good day here in Florida, and that’s exactly what NASA, SpaceX and Crew 10 had today at Kennedy Space Center.
Falcon 9 lifted off, carrying three astronauts and one cosmonaut toward orbit and the International Space Station just as the sun was starting to set in the west. Some seven and a half minutes later, SpaceX booster B1090 completed its duty for the day by landing at LZ-1 in Cape Canaveral, 8.8 miles south of LC-39A.
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