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π A New Moon of Uranus! ππͺ
Using the James Webb Space Telescope, astronomers have discovered a brand-new moon orbiting Uranus, temporarily designated S/2025 U1.
If its reflectivity is similar to Uranusβs other moons, the newcomer is about 10 km across.
In this animation from Webbβs observations, you can spot the newly found moon, along with 13 of Uranusβs 28 known moons β and of course, its rings. The sequence captures about 6 hours of real time.
#Astronomy #JamesWebb #Uranus #Space
Using the James Webb Space Telescope, astronomers have discovered a brand-new moon orbiting Uranus, temporarily designated S/2025 U1.
If its reflectivity is similar to Uranusβs other moons, the newcomer is about 10 km across.
In this animation from Webbβs observations, you can spot the newly found moon, along with 13 of Uranusβs 28 known moons β and of course, its rings. The sequence captures about 6 hours of real time.
#Astronomy #JamesWebb #Uranus #Space
π61π₯29π25π21π20β‘10
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Chinaβs Lunar Ambitions ππ
China is aiming to land astronauts on the Moon by 2030! Recently, the country successfully tested the launch and landing of its new lunar lander Lanyue.
To simulate lunar gravity, engineers used special cables that offset Earthβs pull, allowing the lander to practice touchdowns on an artificial lunar surface.
The Lanyue module is designed not only to carry two astronauts but also to deliver scientific instruments to the Moonβs surface.
#Space #China #Moon #Exploration #Science
China is aiming to land astronauts on the Moon by 2030! Recently, the country successfully tested the launch and landing of its new lunar lander Lanyue.
To simulate lunar gravity, engineers used special cables that offset Earthβs pull, allowing the lander to practice touchdowns on an artificial lunar surface.
The Lanyue module is designed not only to carry two astronauts but also to deliver scientific instruments to the Moonβs surface.
#Space #China #Moon #Exploration #Science
β‘52π48π23π20π₯19
π Earthβs seasons are out of sync
Satellite data reveal that Earthβs seasons donβt line up the same across regions. In places like Mediterranean climates and tropical mountains, plants show different growth cycles β sometimes even just a valley apart.
This mismatch could shape ecosystems, agriculture, and even evolution, as species adapt to out-of-phase seasonal rhythms.
π Read more on ScienceAlert
Satellite data reveal that Earthβs seasons donβt line up the same across regions. In places like Mediterranean climates and tropical mountains, plants show different growth cycles β sometimes even just a valley apart.
This mismatch could shape ecosystems, agriculture, and even evolution, as species adapt to out-of-phase seasonal rhythms.
π Read more on ScienceAlert
ScienceAlert
Earth's Seasons Are Out of Sync, Scientists Discover From Space
These mismatches have surprising consequences.
π65π34π23β‘17π₯13π2
π Microsoft unveils an analog optical computer (AOC) for AI!
A team of four Microsoft researchers spent four years developing this breakthrough system, capable of solving AI tasks using simple LEDsβlike those in smartphones.
π Key highlights:
β’ β‘ 500 tera-operations per watt β over 100Γ more efficient than NVIDIAβs H100
β’ β±οΈ One iteration in just 20 nanoseconds
β’ π Only 2 femtojoules per operation
β’ π‘οΈ Runs at room temperature using micro-LEDs
The AOC combines analog electronics with 3D optical architectures, performing matrix multiplications optically, while complex calculations remain on silicon.
β¨ Advantages over quantum computing:
β’ β 100% accuracy on binary tasks, 95%+ on mixed tasks
β’ βοΈ Quantum systems manage only 40β60% on similar problems
β’ π Beat records from the QPLIB benchmark, solving optimization tasks with 500+ binary and 10,000+ continuous variables
β’ No cryogenics needed β works at room temperature!
The race is on: which will reach the market first β optical or quantum computing?
#Microsoft #OpticalComputing #Photonics #AI
A team of four Microsoft researchers spent four years developing this breakthrough system, capable of solving AI tasks using simple LEDsβlike those in smartphones.
π Key highlights:
β’ β‘ 500 tera-operations per watt β over 100Γ more efficient than NVIDIAβs H100
β’ β±οΈ One iteration in just 20 nanoseconds
β’ π Only 2 femtojoules per operation
β’ π‘οΈ Runs at room temperature using micro-LEDs
The AOC combines analog electronics with 3D optical architectures, performing matrix multiplications optically, while complex calculations remain on silicon.
β¨ Advantages over quantum computing:
β’ β 100% accuracy on binary tasks, 95%+ on mixed tasks
β’ βοΈ Quantum systems manage only 40β60% on similar problems
β’ π Beat records from the QPLIB benchmark, solving optimization tasks with 500+ binary and 10,000+ continuous variables
β’ No cryogenics needed β works at room temperature!
The race is on: which will reach the market first β optical or quantum computing?
#Microsoft #OpticalComputing #Photonics #AI
π₯59π27π21β‘19π18π16
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Unique NASA Images of Solar Flares
NASA has released rare, high-resolution images of solar flares with unprecedented detail. βοΈπ
@science
NASA has released rare, high-resolution images of solar flares with unprecedented detail. βοΈπ
@science
1π72π47π₯41π19
π Chinese scientists have created a DNA cassette tape with a staggering 36 petabytes of storage!
Instead of magnetic tape, this breakthrough uses synthetic DNA molecules to encode digital data through sequences of A, T, C, and G β the letters of life itself.
Highlights:
β’ Up to 1,570 addressable sections per second
β’ Rewind & fast-forward functions, just like classic cassettes πΆ
β’ Built-in error correction with ReedβSolomon codes for data integrity
β’ Market forecast: from $93M in 2024 to $3B by 2030
The future of storage may fit inside a strand of DNA β and yes, one day our smartphones might carry genetic labs just to keep all our memes safe. π§¬πΎ
#DNA #Storage
π Read more
@science
Instead of magnetic tape, this breakthrough uses synthetic DNA molecules to encode digital data through sequences of A, T, C, and G β the letters of life itself.
Highlights:
β’ Up to 1,570 addressable sections per second
β’ Rewind & fast-forward functions, just like classic cassettes πΆ
β’ Built-in error correction with ReedβSolomon codes for data integrity
β’ Market forecast: from $93M in 2024 to $3B by 2030
The future of storage may fit inside a strand of DNA β and yes, one day our smartphones might carry genetic labs just to keep all our memes safe. π§¬πΎ
#DNA #Storage
π Read more
@science
π₯73π53π33π25β‘14
Letβs https://t.iss.one/boost/science !
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Boost this channel to help it unlock additional features.
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π¨ Have you ever wondered how smartwatches know when youβre asleep?
Itβs not magic β itβs @science!
Modern devices like Apple Watch or Fitbit analyze your heart rate, breathing, and even micro-movements of your body. When your heartbeat becomes steady and slow β youβre asleep. Sudden changes? They signal that youβre awake.
β‘ But the technology has gone much further:
β’ In 2023, MIT introduced algorithms that can track not only sleep but also emotions β for example, detecting stress through subtle heart rate changes.
β’ In 2024, researchers showed how AI-powered smartwatches could predict sleep quality by considering stress levels, daytime activity, and even room lighting.
β’ And in 2025, the first clinical trials revealed that wearables can detect early signs of sleep apnea and arrhythmia β long before a person visits a doctor.
π Why does this matter? Because watches are no longer just gadgets β theyβre turning into real medical assistants, spotting health problems before you even notice them yourself.
π Who knows, maybe soon theyβll not only tell you to go to bed, but also remind you when itβs time to take a vacation?
#Science #AI #Technology #Health
Itβs not magic β itβs @science!
Modern devices like Apple Watch or Fitbit analyze your heart rate, breathing, and even micro-movements of your body. When your heartbeat becomes steady and slow β youβre asleep. Sudden changes? They signal that youβre awake.
β‘ But the technology has gone much further:
β’ In 2023, MIT introduced algorithms that can track not only sleep but also emotions β for example, detecting stress through subtle heart rate changes.
β’ In 2024, researchers showed how AI-powered smartwatches could predict sleep quality by considering stress levels, daytime activity, and even room lighting.
β’ And in 2025, the first clinical trials revealed that wearables can detect early signs of sleep apnea and arrhythmia β long before a person visits a doctor.
π Why does this matter? Because watches are no longer just gadgets β theyβre turning into real medical assistants, spotting health problems before you even notice them yourself.
π Who knows, maybe soon theyβll not only tell you to go to bed, but also remind you when itβs time to take a vacation?
#Science #AI #Technology #Health
π₯54π32π31π25β‘12
ππ₯ A Chinese zoo has banned visitors from showing short videos (reels) to a chimpanzee named Ding-Ding.
Ding-Ding became an internet star because of his love for watching short clips on visitorsβ phones. But the staff raised concerns: constant screen time could harm his eyesight.
The case sparked discussions online about digital addiction β and whether itβs really unique to humans.
Of course, primates are on a different evolutionary step, so for people the risk isnβt quite the same. Still, maybe itβs a reminder for us too: clean your glasses and enjoy the view of the real world every once in a while. ππ
#Science #Animals #Psychology #Technology
Ding-Ding became an internet star because of his love for watching short clips on visitorsβ phones. But the staff raised concerns: constant screen time could harm his eyesight.
The case sparked discussions online about digital addiction β and whether itβs really unique to humans.
Of course, primates are on a different evolutionary step, so for people the risk isnβt quite the same. Still, maybe itβs a reminder for us too: clean your glasses and enjoy the view of the real world every once in a while. ππ
#Science #Animals #Psychology #Technology
π72π38π₯34π23π19
πΏ In the wild, gray langurs and spotted deer share a remarkable partnership.
π The langurs often drop fruits from tall trees, providing food for the deer.
π¦ In return, the deer act as an early warning system, alerting the monkeys to approaching predators.
This fascinating example of mutualism shows how different species can cooperate for survival.
π· hrishiwild
π The langurs often drop fruits from tall trees, providing food for the deer.
π¦ In return, the deer act as an early warning system, alerting the monkeys to approaching predators.
This fascinating example of mutualism shows how different species can cooperate for survival.
π· hrishiwild
π113π₯51π25β‘20π19
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π Guangzhou South Railway Station β a true giant of modern transport.
Opened in early 2010 in Guangdong Province, China, it long held the title of the largest railway station in Asia by area. Today it remains one of the countryβs four major passenger hubs.
β‘ Facts:
β’ 15 platforms operating simultaneously
β’ Serves hundreds of high-speed trains daily
β’ Handles tens of millions of passengers each year
Itβs not just a station β itβs a gateway to Chinaβs high-speed rail revolution.
@science
Opened in early 2010 in Guangdong Province, China, it long held the title of the largest railway station in Asia by area. Today it remains one of the countryβs four major passenger hubs.
β‘ Facts:
β’ 15 platforms operating simultaneously
β’ Serves hundreds of high-speed trains daily
β’ Handles tens of millions of passengers each year
Itβs not just a station β itβs a gateway to Chinaβs high-speed rail revolution.
@science
π61π₯28β‘19π16π14
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π₯51π33π22π19π14β‘11
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Tensegrity: The Art and Science of Balance
Tensegrity is a fascinating design principle where rigid rods carry compression while cables handle tension. What makes it truly striking is that the rods never touch each other β instead, they seem to βfloatβ in space, held together only by the balance of stretched cables.
This concept began to take shape in the early 20th century. American architect Buckminster Fuller coined the term βtensegrityβ, and it quickly became a symbol of futuristic design and structural innovation.
In the video, youβll see a famous example β the so-called floating table, a mesmerizing object that brings this principle to life. ποΈβ¨
@science
Tensegrity is a fascinating design principle where rigid rods carry compression while cables handle tension. What makes it truly striking is that the rods never touch each other β instead, they seem to βfloatβ in space, held together only by the balance of stretched cables.
This concept began to take shape in the early 20th century. American architect Buckminster Fuller coined the term βtensegrityβ, and it quickly became a symbol of futuristic design and structural innovation.
In the video, youβll see a famous example β the so-called floating table, a mesmerizing object that brings this principle to life. ποΈβ¨
@science
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