Years after shuttle, NASA rediscovers the perils of liquid hydrogen
A more in-depth overview of today's scrub, the road ahead for the SLS rocket, and the smallest element in the universe.
NASA sought to launch a rocket largely cobbled together from the space shuttle, which itself was designed and built more than four decades ago.
As the space shuttle often was delayed due to technical problems, it therefore comes as scant surprise that the debut launch of NASA's Space Launch System rocket scrubbed a few hours before its launch window opened...
Article
@EverythingScience
A more in-depth overview of today's scrub, the road ahead for the SLS rocket, and the smallest element in the universe.
NASA sought to launch a rocket largely cobbled together from the space shuttle, which itself was designed and built more than four decades ago.
As the space shuttle often was delayed due to technical problems, it therefore comes as scant surprise that the debut launch of NASA's Space Launch System rocket scrubbed a few hours before its launch window opened...
Article
@EverythingScience
Ars Technica
Years after shuttle, NASA rediscovers the perils of liquid hydrogen
"Every time we saw a leak, it pretty quickly exceeded our flammability limits."
👍3😢3
SU(N) matter is about 3 billion times colder than deep space
A Kyoto team led by study author Yoshiro Takahashi used lasers to cool its fermions, atoms of ytterbium, within about one-billionth of a degree of absolute zero, the unattainable temperature where all motion stops.
That's about 3 billion times colder than interstellar space, which is still warmed by the afterglow from the Big Bang.
"Unless an alien civilization is doing experiments like these right now, anytime this experiment is running at Kyoto University it is making the coldest fermions in the universe," said Rice University's Kaden Hazzard
"The payoff of getting this cold is that the physics really changes," Hazzard said. "The physics starts to become more quantum mechanical, and it lets you see new phenomena."
Article
@EverythingScience
A Kyoto team led by study author Yoshiro Takahashi used lasers to cool its fermions, atoms of ytterbium, within about one-billionth of a degree of absolute zero, the unattainable temperature where all motion stops.
That's about 3 billion times colder than interstellar space, which is still warmed by the afterglow from the Big Bang.
"Unless an alien civilization is doing experiments like these right now, anytime this experiment is running at Kyoto University it is making the coldest fermions in the universe," said Rice University's Kaden Hazzard
"The payoff of getting this cold is that the physics really changes," Hazzard said. "The physics starts to become more quantum mechanical, and it lets you see new phenomena."
Article
@EverythingScience
phys.org
SU(N) matter is about 3 billion times colder than deep space
Japanese and U.S. physicists have used atoms about 3 billion times colder than interstellar space to open a portal to an unexplored realm of quantum magnetism.
😱8👍7❤2
Scientists Just Found a New Kind of Synapse Hiding in The Brains of Mice
A previously unknown type of synapse appears to have been hiding in strange, hair-like appendages that can be found on the surfaces of neurons, new research reveals.
A study in mice suggests that structures called primary cilia play a role in neuronal signaling; specifically, they act as a shortcut for transmitting signals directly into the nucleus to trigger changes to chromatin, the complex that forms chromosomes.
This discovery may help scientists unravel the role of these mysterious structures in other cells, as well as give us a deeper understanding of the complicated workings of the brain.
Article
@EverythingScience
A previously unknown type of synapse appears to have been hiding in strange, hair-like appendages that can be found on the surfaces of neurons, new research reveals.
A study in mice suggests that structures called primary cilia play a role in neuronal signaling; specifically, they act as a shortcut for transmitting signals directly into the nucleus to trigger changes to chromatin, the complex that forms chromosomes.
This discovery may help scientists unravel the role of these mysterious structures in other cells, as well as give us a deeper understanding of the complicated workings of the brain.
Article
@EverythingScience
🔥3👏1🤯1
We always strive to ensure all our posted articles support instant view for your convenience but until this issue is fixed, we will continue posting articles from this site without support for instant view.
Once fixed we'll be able to update our previous posts to re-enable instant view on all articles.
Please open Telegram to view this post
VIEW IN TELEGRAM
❤20👍7
New method eradicates deadly brain tumors by 'starving' them of energy source
A groundbreaking study at Tel Aviv University effectively eradicated glioblastoma, a highly lethal type of brain cancer.
The researchers achieved the outcome using a method they developed based on their discovery of two critical mechanisms in the brain that support tumor growth and survival: one protects cancer cells from the immune system, while the other supplies the energy required for rapid tumor growth. The work found that both mechanisms are controlled by brain cells called astrocytes, and in their absence, the tumor cells die and are eliminated.
The researchers explain, "Glioblastoma is an extremely aggressive and invasive brain cancer, for which there exists no known effective treatment. The tumor cells are highly resistant to all known therapies, and, sadly, patient life expectancy has not increased significantly in the last 50 years. Our findings provide a promising basis for the development of effective medications for treating glioblastoma and other types of brain tumors."
Article
@EverythingScience
A groundbreaking study at Tel Aviv University effectively eradicated glioblastoma, a highly lethal type of brain cancer.
The researchers achieved the outcome using a method they developed based on their discovery of two critical mechanisms in the brain that support tumor growth and survival: one protects cancer cells from the immune system, while the other supplies the energy required for rapid tumor growth. The work found that both mechanisms are controlled by brain cells called astrocytes, and in their absence, the tumor cells die and are eliminated.
The researchers explain, "Glioblastoma is an extremely aggressive and invasive brain cancer, for which there exists no known effective treatment. The tumor cells are highly resistant to all known therapies, and, sadly, patient life expectancy has not increased significantly in the last 50 years. Our findings provide a promising basis for the development of effective medications for treating glioblastoma and other types of brain tumors."
Article
@EverythingScience
Medicalxpress
New method eradicates deadly brain tumors by 'starving' them of energy source
A groundbreaking study at Tel Aviv University effectively eradicated glioblastoma, a highly lethal type of brain cancer. The researchers achieved the outcome using a method they developed based on their ...
👍15❤4🔥1
NASA unsure next Moon rocket launch attempt possible this month
After scrapping a second attempt to get its new 30-story lunar rocket off the ground due to a fuel leak, NASA officials said Saturday it may not be possible to try again this month.
The current launch window for NASA's Artemis 1 mission to the Moon ends Tuesday and is "definitely off the table," said Jim Free, associate administrator for Exploration Systems Development, at a press conference Saturday.
The next possible launch window is September 19 to October 4, and failing that, October 17 to 31, NASA said.
The ability to take off during those windows "will really depend on the options that the team comes back with likely on Monday or early Tuesday morning," said Free.
Article
@EverythingScience
After scrapping a second attempt to get its new 30-story lunar rocket off the ground due to a fuel leak, NASA officials said Saturday it may not be possible to try again this month.
The current launch window for NASA's Artemis 1 mission to the Moon ends Tuesday and is "definitely off the table," said Jim Free, associate administrator for Exploration Systems Development, at a press conference Saturday.
The next possible launch window is September 19 to October 4, and failing that, October 17 to 31, NASA said.
The ability to take off during those windows "will really depend on the options that the team comes back with likely on Monday or early Tuesday morning," said Free.
Article
@EverythingScience
phys.org
NASA unsure next Moon rocket launch attempt possible this month
After scrapping a second attempt to get its new 30-story lunar rocket off the ground due to a fuel leak, NASA officials said Saturday it may not be possible to try again this month.
👍5❤2🔥2😁2👎1
Cannabis users no more likely to lack motivation than non-users: Study breaks 'stoner' stereotype
Adult and adolescent cannabis users are no more likely than non-users to lack motivation or be unable to enjoy life's pleasure, new research has shown, suggesting there is no scientific basis for the stereotype often portrayed in the media.
Cannabis users also show no difference in motivation for rewards, pleasure taken from rewards, or the brain's response when seeking rewards, compared to non-users.
Article
@EverythingScience
Adult and adolescent cannabis users are no more likely than non-users to lack motivation or be unable to enjoy life's pleasure, new research has shown, suggesting there is no scientific basis for the stereotype often portrayed in the media.
Cannabis users also show no difference in motivation for rewards, pleasure taken from rewards, or the brain's response when seeking rewards, compared to non-users.
Article
@EverythingScience
Medicalxpress
Cannabis users no more likely to lack motivation than non-users: Study breaks 'stoner' stereotype
Adult and adolescent cannabis users are no more likely than non-users to lack motivation or be unable to enjoy life's pleasure, new research has shown, suggesting there is no scientific basis for the ...
👍12😁5👎1
Finally! There's Now a Way to Send Text Messages on Your Phone Underwater
You may not have given much thought to being able to text underwater, but for millions of scuba diving and snorkeling enthusiasts, communication in the ocean is pretty essential to staying safe.
"Other than downloading an app to their phone, the only thing people will need is a waterproof phone case rated for the depth of their dive," says Chen.
That app is AquaApp, and it can work with speakers and microphones on ordinary smartphones – or even smartwatches. It gives users 240 preset messages to pick from, split into eight categories for easier access.
In tests in a variety of scenarios, the team found the app was effective at communicating messages across a distance of 30 meters (98 feet). For shorter-length messages – emergency SOS messages, for example – the app can go up to 100 meters (nearly 330 feet). This is all managed without a huge drain on battery life.
Read more to find out how it works
Article
@EverythingScience
You may not have given much thought to being able to text underwater, but for millions of scuba diving and snorkeling enthusiasts, communication in the ocean is pretty essential to staying safe.
"Other than downloading an app to their phone, the only thing people will need is a waterproof phone case rated for the depth of their dive," says Chen.
That app is AquaApp, and it can work with speakers and microphones on ordinary smartphones – or even smartwatches. It gives users 240 preset messages to pick from, split into eight categories for easier access.
In tests in a variety of scenarios, the team found the app was effective at communicating messages across a distance of 30 meters (98 feet). For shorter-length messages – emergency SOS messages, for example – the app can go up to 100 meters (nearly 330 feet). This is all managed without a huge drain on battery life.
Read more to find out how it works
Article
@EverythingScience
ScienceAlert
Finally! There's Now a Way to Send Text Messages on Your Phone Underwater
Waterproof case (and a little coding knowledge) required.
👍7❤1
This Webb caught a giant space tarantula!
Take a moment to stare into thousands of never-before-seen young stars in the Tarantula Nebula. Webb reveals details of the structure and composition of the nebula, as well as background galaxies
The Tarantula Nebula gets its name from its dusty filaments. The largest and brightest star-forming region near our galaxy, it's home to the hottest, most massive stars known! This nebula lets us see what star formation might have looked like at its peak in our cosmic history.
#Webb
High-res
Read more
@EverythingScience
Take a moment to stare into thousands of never-before-seen young stars in the Tarantula Nebula. Webb reveals details of the structure and composition of the nebula, as well as background galaxies
The Tarantula Nebula gets its name from its dusty filaments. The largest and brightest star-forming region near our galaxy, it's home to the hottest, most massive stars known! This nebula lets us see what star formation might have looked like at its peak in our cosmic history.
#Webb
High-res
Read more
@EverythingScience
🔥12❤5👍3
Webb’s NIRCam instrument draws attention to bright, hot features, such as the massive young stars in blue. As seen here, its MIRI instrument sees in longer wavelengths of light, uncovering cooler gas and dust deeper within the clouds.
#Webb
High-res
Read more
@EverythingScience
#Webb
High-res
Read more
@EverythingScience
👍4🔥1
Tarantula Nebula (NIRCam).png
140.7 MB
Tarantula Nebula (NIRCam) Full Res
In this mosaic image stretching 340 light-years across, Webb’s Near-Infrared Camera (NIRCam) displays the Tarantula Nebula star-forming region in a new light, including tens of thousands of never-before-seen young stars that were previously shrouded in cosmic dust. The most active region appears to sparkle with massive young stars, appearing pale blue.
Scattered among them are still-embedded stars, appearing red, yet to emerge from the dusty cocoon of the nebula. NIRCam is able to detect these dust-enshrouded stars thanks to its unprecedented resolution at near-infrared wavelengths.
Low-res
Read more
In this mosaic image stretching 340 light-years across, Webb’s Near-Infrared Camera (NIRCam) displays the Tarantula Nebula star-forming region in a new light, including tens of thousands of never-before-seen young stars that were previously shrouded in cosmic dust. The most active region appears to sparkle with massive young stars, appearing pale blue.
Scattered among them are still-embedded stars, appearing red, yet to emerge from the dusty cocoon of the nebula. NIRCam is able to detect these dust-enshrouded stars thanks to its unprecedented resolution at near-infrared wavelengths.
Low-res
Read more
Tarantula Nebula (MIRI).png
2 MB
Tarantula Nebula (MIRI) Full Res
At the longer wavelengths of light captured by its Mid-Infrared Instrument (MIRI), Webb focuses on the area surrounding the central star cluster and unveils a very different view of the Tarantula Nebula.
In this light, the young hot stars of the cluster fade in brilliance, and glowing gas and dust come forward. Abundant hydrocarbons light up the surfaces of the dust clouds, shown in blue and purple. Much of the nebula takes on a more ghostly, diffuse appearance because mid-infrared light is able to show more of what is happening deeper inside the clouds. Still-embedded protostars pop into view within their dusty cocoons, including a bright group at the very top edge of the image, left of center.
Low-res
Read more
@EverythingScience
At the longer wavelengths of light captured by its Mid-Infrared Instrument (MIRI), Webb focuses on the area surrounding the central star cluster and unveils a very different view of the Tarantula Nebula.
In this light, the young hot stars of the cluster fade in brilliance, and glowing gas and dust come forward. Abundant hydrocarbons light up the surfaces of the dust clouds, shown in blue and purple. Much of the nebula takes on a more ghostly, diffuse appearance because mid-infrared light is able to show more of what is happening deeper inside the clouds. Still-embedded protostars pop into view within their dusty cocoons, including a bright group at the very top edge of the image, left of center.
Low-res
Read more
@EverythingScience
❤🔥7❤4👍4🔥4🤔1
Designing a way to make oxygen injectable
What if emergency medical personnel could treat a desperately ill patient in need of oxygen with a simple injection instead of having to rely on mechanical ventilation or rush to get them onto a heart-lung bypass machine?
A new approach to transporting gases using a class of materials called porous liquids represents a big step toward artificial oxygen carriers and demonstrates the immense biomedical potential of these unusual fluids.
Article
@EverythingScience
What if emergency medical personnel could treat a desperately ill patient in need of oxygen with a simple injection instead of having to rely on mechanical ventilation or rush to get them onto a heart-lung bypass machine?
A new approach to transporting gases using a class of materials called porous liquids represents a big step toward artificial oxygen carriers and demonstrates the immense biomedical potential of these unusual fluids.
Article
@EverythingScience
phys.org
Designing a way to make oxygen injectable
What if emergency medical personnel could treat a desperately ill patient in need of oxygen with a simple injection instead of having to rely on mechanical ventilation or rush to get them onto a heart-lung ...
🤯10👌4❤2👍2
NASA is going to impact their DART small satellite into Diomorphos asteroid, as a method of planetary defense test
NASA’s Double Asteroid Redirection Test (DART) is set to make history next Monday (3rd Oct) as the world’s first planetary defense test, and the spacecraft’s own “mini-photographer” LICIACube (short for Light Italian CubeSat for Imaging Asteroids) is warming up to capture the event.
Article
@EverythingScience
NASA’s Double Asteroid Redirection Test (DART) is set to make history next Monday (3rd Oct) as the world’s first planetary defense test, and the spacecraft’s own “mini-photographer” LICIACube (short for Light Italian CubeSat for Imaging Asteroids) is warming up to capture the event.
Article
@EverythingScience
NASA
DART’s Small Satellite Companion Tests Camera Prior to Dimorphos Impact
NASA’s Double Asteroid Redirection Test (DART) is set to make history next Monday as the world’s first planetary defense test, and the spacecraft’s own “mini-photographer” LICIACube (short for Light Italian CubeSat for Imaging Asteroids) is warming up to…
👍11❤3🔥2
Watch a Live Feed from NASA’s DART Spacecraft on Approach to Asteroid Dimorphos (upcoming)
NASA’s Double Asteroid Redirection Test (DART) has one single instrument onboard – the Didymos Reconnaissance and Asteroid Camera for Optical Navigation, aka the DRACO camera. DRACO serves as the spacecraft’s eye and will guide DART to its final destination: impact with asteroid Dimorphos. The stream you'll be watching will be a real-time feed from the DART spacecraft enabled through the DRACO camera sending one image per second to Earth.
In the hours before impact, the screen will appear mostly black, with a single point of light. That point is the binary asteroid system Didymos which is made up of a larger asteroid named Didymos and a smaller asteroid that orbits around it called Dimorphos.
As the
At 23:14 UTC, the DART spacecraft is slated to intentionally crash into asteroid Dimorphos. This stream will be delayed due to the time it takes the images to arrive at Earth, plus additional time for feeding the images to various platforms.
After impact, the feed will turn black – due to a loss of signal. After about 2 minutes, this stream will turn into a replay – showing the final moments leading up to impact. That replay file will also become available on NASA websites and social media accounts.
DART is a spacecraft designed to impact an asteroid as a test of technology. DART’s target asteroid is NOT a threat to Earth. This asteroid system is a perfect testing ground to see if intentionally crashing a spacecraft into an asteroid is an effective way to change its course, should an Earth-threatening asteroid be discovered in the future.
🌐 Stream
@EverythingScience
NASA’s Double Asteroid Redirection Test (DART) has one single instrument onboard – the Didymos Reconnaissance and Asteroid Camera for Optical Navigation, aka the DRACO camera. DRACO serves as the spacecraft’s eye and will guide DART to its final destination: impact with asteroid Dimorphos. The stream you'll be watching will be a real-time feed from the DART spacecraft enabled through the DRACO camera sending one image per second to Earth.
In the hours before impact, the screen will appear mostly black, with a single point of light. That point is the binary asteroid system Didymos which is made up of a larger asteroid named Didymos and a smaller asteroid that orbits around it called Dimorphos.
As the
23:14 UTC impact of asteroid Dimorphos nears closer, the point of light will get bigger and eventually detailed asteroids will be visible. At 23:14 UTC, the DART spacecraft is slated to intentionally crash into asteroid Dimorphos. This stream will be delayed due to the time it takes the images to arrive at Earth, plus additional time for feeding the images to various platforms.
After impact, the feed will turn black – due to a loss of signal. After about 2 minutes, this stream will turn into a replay – showing the final moments leading up to impact. That replay file will also become available on NASA websites and social media accounts.
DART is a spacecraft designed to impact an asteroid as a test of technology. DART’s target asteroid is NOT a threat to Earth. This asteroid system is a perfect testing ground to see if intentionally crashing a spacecraft into an asteroid is an effective way to change its course, should an Earth-threatening asteroid be discovered in the future.
@EverythingScience
Please open Telegram to view this post
VIEW IN TELEGRAM
YouTube
DART's Impact with Asteroid Dimorphos (Official NASA Broadcast)
Countdown to impact as NASA’s Double Asteroid Redirection Test (DART) attempts humanity’s first-ever test of planetary defense! The DART spacecraft will intentionally crash into asteroid Dimorphos at 7:14 p.m. ET on Monday, September 26, 2022 to see if kinetic…
🔥11👍2❤1
Dimorphos has been precision locked by the DART spacecraft. Impact is in about 15 minutes! Time to see what impacting an asteroid actually does to alter its trajectory.
🌐 Stream
@EverythingScience
@EverythingScience
Please open Telegram to view this post
VIEW IN TELEGRAM
👍12🔥3❤1
This media is not supported in your browser
VIEW IN TELEGRAM
Watch the final moments from the DART Mission on its collision course with asteroid Dimporphos.
🌐 Video
@EverythingScience
@EverythingScience
Please open Telegram to view this post
VIEW IN TELEGRAM
❤13👍7🤯4🤩4
This media is not supported in your browser
VIEW IN TELEGRAM
Animation (sped up 500x) from one of LCO Global's 1 meter telescope at SAAO South Africa showing effects of #DARTMission impact into Dimorphos
(Still no threat to the Earth... Long straight streak is camera artifact)
🌐 @astrosnapper
@EverythingScience
(Still no threat to the Earth... Long straight streak is camera artifact)
@EverythingScience
Please open Telegram to view this post
VIEW IN TELEGRAM
👍14😱4🤯1