[Tee tiong huat]

A new image from NASA’s Mars Odyssey orbiter reveals an extraordinary sight: a massive formation breaking through Mars’ early morning cloud cover.  Taken just be4 dawn on May 2, 2025, & released by NASA’s Jet Propulsion, lab on June 6, photograph offers an unprecedented view of Martian horizon. 

It is the first time a feature of this scale has been seen from orbit rising above the clouds, offering a perspective normally associated with Earth-based spaceflight. The image was captured by rotating the spacecraft 90 degrees in orbit, allowing its camera to observe the edge of the Martian atmosphere instead of the ground below.

[Tee tiong huat]

A new image from NASA’s Mars Odyssey orbiter reveals an extraordinary sight: a massive formation breaking through Mars’ early morning cloud cover.  Taken just be4 dawn on May 2, 2025, & released by NASA’s Jet Propulsion, lab on June 6, photograph offers an unprecedented view of Martian horizon. 

It is the first time a feature of this scale has been seen from orbit rising above the clouds, offering a perspective normally associated with Earth-based spaceflight. The image was captured by rotating the spacecraft 90 degrees in orbit, allowing its camera to observe the edge of the Martian atmosphere instead of the ground below.

Mara morning photo...
https://dailygalaxy.com/2025/06/nasa-tow...tmosphere/

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A new image from NASA’s Mars Odyssey orbiter reveals extraordinary sight: a massive formation breaking through Mars’ early morning cloud cover.  Taken be4 dawn on May 2, 2025, & released by NASA’s Jet Propulsion, lab on June 6, photograph offers an unprecedented view of Martian horizon. Its first time a feature of this scale been seen from orbit rising above clouds, offering perspective normally associated with Earth-based spaceflight. The image was captured by rotating spacecraft 90% degrees in orbit, allowing camera observe edge of Martian atmosphere instead of ground below.

A image NASA’s Mars Odyssey orbiter reveals an extraordinary sight: a massive formation breaking through Mars’ early morning cloud cover. Taken just before dawn on May 2, 2025, and released by NASA’s Jet Propulsion Laboratory on June 6, the photograph offers an unprecedented view of the Martian horizon. It is the first time a feature of this scale has been seen from orbit rising above the clouds, offering a perspective normally associated with Earth-based spaceflight. The image was captured by rotating the spacecraft 90 degrees in orbit, allowing its camera to observe the edge of the Martian atmosphere instead of the ground below.

[Tee tiong huat]

Researcher suggests that rate at which Earth is spinning – in other words, its day length – may have had an important effect on the pattern and timing of "Earth's oxygenation." There are two major components to this story that, at first glance, don't seem to have a lot to do with each other. 

The first is that Earth's spin is slowing down. The reason Earth's spin is slowing down is because the Moon exerts a gravitational pull on the planet, EARTH. which causes a rotational deceleration since the Moon is gradually pulling away.

In 1977, NASA launched the Voyager probes to study Solar System's edge & the interstellar medium between the stars. 1 by 1, both hit "wall of fire" hit boundaries of our home system, measuring temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit) on their passage through it. OMG   

Here There are a few ways one can define edge of the Solar System – for instance, where the planets end, or at the Oort cloud, the boundary of the Sun's gravitational influence where objects may still return closer to the Sun. One way is to define it as the edge of the Sun's magnetic field, where it pushes up against the interstellar medium, known as the heliopause.

"The Sun sends out a constant flow of charged particles called the solar wind, which ultimately travels past all the planets to some three times the distance to Pluto before being impeded by the interstellar medium," NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere."

It is beyond that where the heliopause lies. "The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. "As the heliosphere plows through interstellar space, a bow shock forms, similar to what forms as a ship plowing through the ocean." Photo below courtesy from Tee tiong huat.

Our solar system above.



Space-icon Space & Physics: for information reading oni lehh.

As NASA's Voyager Spacecraft Found A 30,000-50,000 Kelvin "Wall" At The Edge Of Our Solar System. Temperatures there reach an astonishing 30,000-50,000 kelvin. Voyager in space (artist concept).As NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere." It is beyond that where the heliopause lies.
"The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. As the Voyager spacecraft continue to send us data from beyond this "wall", the only two probes that have crossed it so far, nearly 50 years after they were launched. Together they have found several surprises on our first glimpse outside the Solar System.
https://www.iflscience.com/nasas-voyager...stem-79454

[Tee tiong huat]

An enduring question in Earth sciences has how did Earth's atmosphere get its oxygen, what factors controlled this oxygenation took place," University of Michigan explained in 2021.

https://youtu.be/lQXvbigwNEw?si=7cTo04RQjCLcrdx1

[Tee tiong huat]

Ever since its formation around 4.5 billion years ago, Earth's rotation been gradually slowing down, its days have gotten progressively longer as a result. Earth's slowdown not noticeable on human timescales, it's enough to work significant changes over eons. One changes is perhaps most significant of all, at least to us: lengthening the days are linked to oxygenation of Earth's atmosphere, a study from 2021. good work.

Specifically, the blue-green algae (or cyanobacteria) emerged about proliferated around 2.4 billion years ago have been able to produce more oxygen as a metabolic by-product because Earth's days grew longer. 
Check out the on the following video for summary on their research.

Earth's Rotation Is Slowing Down, And It Might Explain Why We Have Oxygen

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For months, silence stretched across stars. At edge of the solar system—more than 24 billion kilometers from Earth—NASA’s Voyager 1 probe had gone quiet, sending only incomprehensible signals into the void. But now, against all odds, Voyager 1 has come back online, astonishing engineers and reigniting hope for one of humanity’s most extraordinary scientific missions.
https://glassalmanac.com/a-nasa-probe-th...reappears/

Using James Webb Space Telescope (JWST), astronomers have discovered a planetary system orbiting a youthful star located 300 light-years away. System's of two planets, YSES-1 b and YSES-1 c, are packed with coarse, rough, & frankly irritating silica material (we get you, Anakin, it does get everywhere).
Astronomers say this discovery around a star that is just 16.7 million years old could hint at how the planets and moons of our 4.6 billion-year-old solar system took shape. As both planets are gas giants, could offer astronomers an opportunity to study real-time evolution of planets like Jupiter and Saturn.

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Using James Webb Space Telescope (JWST), astronomers have discovered a planetary system orbiting a youthful star located 300 light-years away. System's of two planets, YSES-1 b and YSES-1 c, are packed with coarse, rough, & frankly irritating silica material (we get you, Anakin, it does get everywhere).
Astronomers say this discovery around a star that is just 16.7 million years old could hint at how the planets and moons of our 4.6 billion-year-old solar system took shape. As both planets are gas giants, could offer astronomers an opportunity to study real-time evolution of planets like Jupiter and Saturn.

https://www.space.com/astronomy/exoplane...tner-world

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Christopher Adams, a geophysicist affiliated with GNS Science in Lower Hutt, New Zealand, has expertise in tectonic fault analysis.

He notes that increased understanding of earthquakes in unexpected parts of the world is adding to the broader conversation about large-scale hazards.
Adams points out that developing greater awareness and understanding of smaller quakes can give scientists much better insight into how seismic forces gather and shift deep below the surface.
Even small earthquakes trigger tsunamis
Many researchers believe that certain conditions, such as a severe underwater landslide or a major disturbance along a subduction zone, could generate a fast-moving wall of water close to 1,000 feet high

[Tee tiong huat]

Scientists have managed to teleport light. Thks to a quantum property called entanglement, it’s possible to copy their info to another place. This same process could, in theory, be used to communicate across galaxies, opening door to a kind of interstellar messaging system. It might sound like pure science fiction… but it’s already happening. What’s this about teleporting light?. When scientists talk about teleporting light, they’re not referring to beaming objects space to space, like in sci-fi movie, they’re talking about is quantum teleportation, works in a different way, process transfers state of light particle (a photon) from one place to another, all happens throughquantum entanglement, a connection between particles lets them share info instantly, no matter how far apart they are. What is quantum entanglement?. Quantum entanglement is a phenomenon in quantum physics where 2-particles become so deeply connected that the state of one directly influences the state of the other, regardless of the distance between them. For example, if you change something in a particle on Earth, other particle, even if it’s in another galaxy, “knows” about it immediately & reacts.
Albert Einstein himself was aware of this phenomenon, dubbed it”spooky action at a distance” b'cos it defied physics logic (wasn’t only prediction Einstein made since been proven correct). This weird entanglement between particles allows for quantum teleportation of light. The important thing is implications, finding, could quite literally change the nature of communication, maybe changing our understanding of space, time & info.
Why this breakthrough could rewrite the future of communication...

More than 800,000 galaxies in the darkness ― James Webb announces historic discovery out of Milky Way. 

Only two weeks left to discover Planet Nine ― It would be very close to Earth
A 30-million-year-old planet factory — NASA uncovers the birthplace of planets in a distant galaxy. Once again, science has surprised us, making reality what we thought was impossible for a long time, something out of a science fiction movie, we’re talking about teleportation. This milestone happened in May 2025, when researchers managed to teleport a quantum state through fiber optic cables (yes, it’s the same as our internet). The next step is sending information to the most distant part of the universe.

[Tee tiong huat]

More than 800,000 galaxies in the darkness ― James Webb announces historic discovery out of Milky Way. 

Only two weeks left to discover Planet Nine ― It would be very close to Earth
A 30-million-year-old planet factory — NASA uncovers the birthplace of planets in a distant galaxy. Once again, science has surprised us, making reality what we thought was impossible for a long time, something out of a science fiction movie, we’re talking about teleportation. This milestone happened in May 2025, when researchers managed to teleport a quantum state through fiber optic cables (yes, it’s the same as our internet). The next step is sending information to the most distant part of the universe.

https://www.ecoticias.com/en/experts-ach...ion/15993/

[Tee tiong huat]

Experts achieve teleportation can send info 2-far universe.

[Tee tiong huat]

Experts achieve teleportation can send info 2-far universe.

Once again, science has surprised us, making reality what we thought was impossible for a long time, something out of a science fiction movie… we’re talking about teleportation. A milestone happened in May 2025, for mankind, where & when researchers managed to teleport a quantum state through fiber optic cables (yes, it’s the same as our internet). The next stage is to step is by sending information to the most distant part of the universe...  

[Tee tiong huat]

Once again, science has surprised us, making reality what we thought was impossible for a long time, something out of a science fiction movie… we’re talking about teleportation. A milestone happened in May 2025, for mankind, where & when researchers managed to teleport a quantum state through fiber optic cables (yes, it’s the same as our internet). The next stage is to step is by sending information to the most distant part of the universe...  

How can a cable that transmits our internet teleport messages?

What a * wonderful * msg to mankind on earth. This idea of using fiber optic cables to teleport messages is not new. but is just only recently has a study put this idea into practice. We are talking about the experiment led by North western University in U.S., which finally proved that quantum data and traditional internet data can coexist in the same optical fiber. And what a wonderful thing,
weren't is a very good presentation of a damn good present to all us on earth. 

How would this be possible? Well, here we will have to get into some technical terms: to begin with, we must remember that quantum communication does not use electrical impulses or conventional waves; it depends on individual photons, which are carriers of very sensitive quantum states, and can be lost when exposed to interference. And that is where the problem lies: the fibers we use today are full of intense signals from the traditional internet, causing a type of “optical pollution” that tends to destroy any quantum data in its path. Ok, but then how did they make teleportation possible?...

[Tee tiong huat]

Experts achieve teleportation can send info 2-far universe.

ECS NEWS: 
https://www.ecoticias.com/en/experts-ach...ion/15993/

[Tee tiong huat]

ECS NEWS: 
https://www.ecoticias.com/en/experts-ach...ion/15993/

Time to try use teleportation on our computers.

[Tee tiong huat]

In 1977, NASA launched the Voyager probes to study Solar System's edge & the interstellar medium between the stars. 1 by 1, both hit "wall of fire" hit boundaries of our home system, measuring temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit) on their passage through it. OMG
Here There are a few ways one can define edge of the Solar System – for instance, where the planets end, or at the Oort cloud, the boundary of the Sun's gravitational influence where objects may still return closer to the Sun. One way is to define it as the edge of the Sun's magnetic field, where it pushes up against the interstellar medium, known as the heliopause.

"The Sun sends out a constant flow of charged particles called the solar wind, which ultimately travels past all the planets to some three times the distance to Pluto before being impeded by the interstellar medium," NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere."

It is beyond that where the heliopause lies. "The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. "As the heliosphere plows through interstellar space, a bow shock forms, similar to what forms as a ship plowing through the ocean." Photo below courtesy from Tee tiong huat.

Our solar system above.



Space-icon Space & Physics: for information reading oni lehh.

As NASA's Voyager Spacecraft Found A 30,000-50,000 Kelvin "Wall" At Edge Of Our Solar Syste. Temperatures can reach an astonishing 30,000-50,000 kelvin. Voyager in space (artist concept). NASA explains. "This forms a giant bubble around Sun & it planets, known as the heliosphere." It is beyond where the heliopause lies, the boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. As the Voyager spacecraft continue to send us data from beyond this "wall", the only two probes that have crossed it so far, nearly 50 years after they were launched. Together they have found several surprises on our first glimpse outside Solar System.

In 1977, NASA launched the Voyager probes to study the Solar System's edge, and the interstellar medium between the stars. One by one, they both hit the "wall of fire" at the boundaries of our home system, measuring temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit) on their passage through it.

[Tee tiong huat]

It very safe. But, what is neutrinos mean to us...human on earth?.
https://www.sciencealert.com/neutrinos

Here another detection or real problem or isit some problem on July 5, 2025.
https://m.economictimes.com/news/new-upd...877309.cms

[Tee tiong huat]

In 1977, NASA launched the Voyager probes to study Solar System's edge & the interstellar medium between the stars. 1 by 1, both hit "wall of fire" hit boundaries of our home system, measuring temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit) on their passage through it. OMG   

Here There are a few ways one can define edge of the Solar System – for instance, where the planets end, or at the Oort cloud, the boundary of the Sun's gravitational influence where objects may still return closer to the Sun. One way is to define it as the edge of the Sun's magnetic field, where it pushes up against the interstellar medium, known as the heliopause.

"The Sun sends out a constant flow of charged particles called the solar wind, which ultimately travels past all the planets to some three times the distance to Pluto before being impeded by the interstellar medium," NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere."

It is beyond that where the heliopause lies. "The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. "As the heliosphere plows through interstellar space, a bow shock forms, similar to what forms as a ship plowing through the ocean." Photo below courtesy from Tee tiong huat.

Our solar system above.



Space-icon Space & Physics: for information reading oni lehh.

As NASA's Voyager Spacecraft Found A 30,000-50,000 Kelvin "Wall" At The Edge Of Our Solar System. Temperatures there reach an astonishing 30,000-50,000 kelvin. Voyager in space (artist concept).As NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere." It is beyond that where the heliopause lies.
"The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. As the Voyager spacecraft continue to send us data from beyond this "wall", the only two probes that have crossed it so far, nearly 50 years after they were launched. Together they have found several surprises on our first glimpse outside the Solar System.
https://www.iflscience.com/nasas-voyager...stem-79454

Here There are a few ways one can define edge of the Solar System – for instance, where the planets end, or at the Oort cloud, the boundary of the Sun's gravitational influence where objects may still return closer to the Sun. One way is to define it as the only edge of the Sun's magnetic field, where it can't really pushes furthest against up or against the interstellar medium, known as the heliopause.
https://www.ecoticias.com/en/voyager-1-f...00f/16450/

[Tee tiong huat]

https://www.ecoportal.net/en/it-is-a-lea...tion/6822/
https://farmingdale-observer.com/2025/05...alf-a-day/

https://www.ecoportal.net/en/it-is-a-lea...tion/6822/
https://www.ecoticias.com/en/voyager-1-f...e_vignette

[Tee tiong huat]

Here another detection or real problem or isit some problem on July 5, 2025.
https://m.economictimes.com/news/new-upd...877309.cms

Who is Ryo Tatsuki?. She warned of a great disaster that would strike Japan on July 5. The images show the sea "boiling" and "giant bubbles," suggesting a mega-tsunami that would primarily strike Japan's south coast and neighboring areas. 

She also claimed that waves much more potent than those caused by the 2011 Tohoku earthquake could be triggered by a deep-sea fracture between Japan and the Philippines.

Mass Cancellations Hit Japan’s Travel Industry Amid July 5 Disaster Fears
There is a concern among the people about Tatsuki's prediction.

[Tee tiong huat]

Next and many next generation rocket technology can help us. But it can take100, 500 or maybe 1000 years...arhh. It's moving moment as we try to get closer to light travel. Since science took a look at atom. A note on smallest part of a substance that cannot be broken down chemically. Each atom has a nucleus (center) made up of protons (positive particles) and neutrons (particles with no charge). Electrons (negative particles) move around the nucleus.

JWST Detect LED Artilicial Light on Proxima Life Revealing  Aliens Cities Life. Aliens. Just oni 4.2 light years for Earth. Maybe 10% 20% maybe 50% of light to send eg: Like Voyager 1 again be b4 2130 years.

Voyager 1 › Max speed. 61,500 km/h

N A NUTSHELL

🚀 China’s Mengzhou spacecraft successfully completed a crucial crew capsule escape test, a significant milestone in astronaut safety. The test
🌕 sets stage for China’s ambitious plan to achieve its first crewed lunar landing b4 2030, highlighting rapid progress in its space program. 🛰️ The Mengzhou spacecraft, with its modular design & capacity for up to seven (7) astronauts, represents a major leap in human spaceflight capabilities. While NASA's
📈 Artemis program faces uncertainties, China’s focused efforts in space exploration are capturing global attention, potentially shifting competitive dynamics. In a stunning display of technological prowess, China has successfully conducted a crucial crew capsule escape test for its next-generation spacecraft. Its pivotal test marks a significant milestone as China aims to achieve a first crewed lunar landing be4 2030. Mengzhou, or “Dream Vessel,” spacecraft’s escape test not only underscores China’s commitment to advancing human space exploration but also highlights it growing capabilities in astronaut safety & mission readiness. As NASA grapples uncertainties in Artemis program, China’s focused efforts in the race to the Moon are capturing the world’s attention. The recent escape test of Mengzhou manned spacecraft represents a groundbreaking achievement for China’s space exploration endeavors. At precisely 12:30 p.m., the escape engines ignited, propelling the spacecraft-and-tower assembly skyward with remarkable precision. Within a mere 20 seconds, the return capsule successfully separated from the escape tower, deploying its parachute and landing safely, cushioned by an innovative airbag system.

This test, the first of its kind in 27 years, is a testament to the vehicle’s capability to extract astronauts from potential launch emergencies. The China Manned Space Engineering Office (CMSEO) emphasized that this success marks a key milestone for China’s new crewed spacecraft, distinguishing it from the previous Shenzhou model by its independent escape & rescue functions. Notably, Mengzhou is designed to accommodate up to seven astronauts, offering a comprehensive evaluation of its escape & rescue subsystems.

[Tee tiong huat]

N A NUTSHELL

🚀 China’s Mengzhou spacecraft successfully completed a crucial crew capsule escape test, a significant milestone in astronaut safety. The test
🌕 sets stage for China’s ambitious plan to achieve its first crewed lunar landing b4 2030, highlighting rapid progress in its space program. 🛰️ The Mengzhou spacecraft, with its modular design & capacity for up to seven (7) astronauts, represents a major leap in human spaceflight capabilities. While NASA's
📈 Artemis program faces uncertainties, China’s focused efforts in space exploration are capturing global attention, potentially shifting competitive dynamics. In a stunning display of technological prowess, China has successfully conducted a crucial crew capsule escape test for its next-generation spacecraft. Its pivotal test marks a significant milestone as China aims to achieve a first crewed lunar landing be4 2030. Mengzhou, or “Dream Vessel,” spacecraft’s escape test not only underscores China’s commitment to advancing human space exploration but also highlights it growing capabilities in astronaut safety & mission readiness. As NASA grapples uncertainties in Artemis program, China’s focused efforts in the race to the Moon are capturing the world’s attention. The recent escape test of Mengzhou manned spacecraft represents a groundbreaking achievement for China’s space exploration endeavors. At precisely 12:30 p.m., the escape engines ignited, propelling the spacecraft-and-tower assembly skyward with remarkable precision. Within a mere 20 seconds, the return capsule successfully separated from the escape tower, deploying its parachute and landing safely, cushioned by an innovative airbag system.

This test, the first of its kind in 27 years, is a testament to the vehicle’s capability to extract astronauts from potential launch emergencies. The China Manned Space Engineering Office (CMSEO) emphasized that this success marks a key milestone for China’s new crewed spacecraft, distinguishing it from the previous Shenzhou model by its independent escape & rescue functions. Notably, Mengzhou is designed to accommodate up to seven astronauts, offering a comprehensive evaluation of its escape & rescue subsystems.

Can’t Believe What I Saw”: China’s First Capsule Escape Test in 30 Years. Ends in a Blazing Success Changes Everything. China's Mengzhou spacecraft achieved. Aa significant milestone by successfully completing its first crew capsule escape test in nearly 30 years, setting stage for nation's ambitious plans for a crewed lunar landing before 2030.
https://www.rudebaguette.com/en/2025/06/...verything/

[Tee tiong huat]

N A NUTSHELL

🚀 China’s Mengzhou spacecraft successfully completed a crucial crew capsule escape test, a significant milestone in astronaut safety. The test
🌕 sets stage for China’s ambitious plan to achieve its first crewed lunar landing b4 2030, highlighting rapid progress in its space program. 🛰️ The Mengzhou spacecraft, with its modular design & capacity for up to seven (7) astronauts, represents a major leap in human spaceflight capabilities. While NASA's
📈 Artemis program faces uncertainties, China’s focused efforts in space exploration are capturing global attention, potentially shifting competitive dynamics. In a stunning display of technological prowess, China has successfully conducted a crucial crew capsule escape test for its next-generation spacecraft. Its pivotal test marks a significant milestone as China aims to achieve a first crewed lunar landing be4 2030. Mengzhou, or “Dream Vessel,” spacecraft’s escape test not only underscores China’s commitment to advancing human space exploration but also highlights it growing capabilities in astronaut safety & mission readiness. As NASA grapples uncertainties in Artemis program, China’s focused efforts in the race to the Moon are capturing the world’s attention. The recent escape test of Mengzhou manned spacecraft represents a groundbreaking achievement for China’s space exploration endeavors. At precisely 12:30 p.m., the escape engines ignited, propelling the spacecraft-and-tower assembly skyward with remarkable precision. Within a mere 20 seconds, the return capsule successfully separated from the escape tower, deploying its parachute and landing safely, cushioned by an innovative airbag system.

This test, the first of its kind in 27 years, is a testament to the vehicle’s capability to extract astronauts from potential launch emergencies. The China Manned Space Engineering Office (CMSEO) emphasized that this success marks a key milestone for China’s new crewed spacecraft, distinguishing it from the previous Shenzhou model by its independent escape & rescue functions. Notably, Mengzhou is designed to accommodate up to seven astronauts, offering a comprehensive evaluation of its escape & rescue subsystems.

China’s Mengzhou spacecraft tested successfully completed a crucial crew capsule escape, marking a significant milestone in astronaut safety.

[Tee tiong huat]

In 1977, NASA launched the Voyager probes to study Solar System's edge & the interstellar medium between the stars. 1 by 1, both hit "wall of fire" hit boundaries of our home system, measuring temperatures of 30,000-50,000 kelvin (54,000-90,000 degrees Fahrenheit) on their passage through it. OMG   

Here There are a few ways one can define edge of the Solar System – for instance, where the planets end, or at the Oort cloud, the boundary of the Sun's gravitational influence where objects may still return closer to the Sun. One way is to define it as the edge of the Sun's magnetic field, where it pushes up against the interstellar medium, known as the heliopause.

"The Sun sends out a constant flow of charged particles called the solar wind, which ultimately travels past all the planets to some three times the distance to Pluto before being impeded by the interstellar medium," NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere."

It is beyond that where the heliopause lies. "The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. "As the heliosphere plows through interstellar space, a bow shock forms, similar to what forms as a ship plowing through the ocean." Photo below courtesy from Tee tiong huat.

Our solar system above.



Space-icon Space & Physics: for information reading oni lehh.

As NASA's Voyager Spacecraft Found A 30,000-50,000 Kelvin "Wall" At The Edge Of Our Solar System. Temperatures there reach an astonishing 30,000-50,000 kelvin. Voyager in space (artist concept).As NASA explains. "This forms a giant bubble around the Sun and its planets, known as the heliosphere." It is beyond that where the heliopause lies.
"The boundary between solar wind and interstellar wind is the heliopause, where the pressure of the two winds are in balance. This balance in pressure causes the solar wind to turn back and flow down the tail of the heliosphere," NASA continues. As the Voyager spacecraft continue to send us data from beyond this "wall", the only two probes that have crossed it so far, nearly 50 years after they were launched. Together they have found several surprises on our first glimpse outside the Solar System.
https://www.iflscience.com/nasas-voyager...stem-79454

A bizarre and incomprehensible phenomenon occurred between Mars and Jupiter. The James Webb Space Telescope captured every second of it. In this video, we explore into this incredible celestial phenomenon that has scientists at NASA and astronomers all across the world utterly surprised. What exactly did Webb observe passing through the asteroid belt? Could it be a renegade planet, an alien probe, or something never seen before?

Join us as we analyze the most recent photographs and data from the James Webb Space Telescope, showing previously unseen footage of this mysterious object traversing the inner boundary of the gas giants' domain. From expert analysis to real-time satellite data, we look at every facet of what could be the decade's most significant space anomaly. Webb was not intended to track mysterious space events, yet it did so and discovered something previously unknown.

As conspiracy theories swirl and experts hunt for answers, we'll show you exactly what this item looked like, how fast it was moving, and why it could be more than simply a rock floating in space. Could this be a sign of intelligent life? Is it a naturally occurring object that defies all known physical laws?

Don't miss this mind-blowing voyage into the unknown as we unravel the mysteries of what happened between Mars and Jupiter—and what it means for the future of space exploration. Subscribe now and enable notifications, since space has just become a lot more mysterious.

[Tee tiong huat]

A bizarre and incomprehensible phenomenon occurred between Mars and Jupiter. The James Webb Space Telescope captured every second of it. In this video, we explore into this incredible celestial phenomenon that has scientists at NASA and astronomers all across the world utterly surprised. What exactly did Webb observe passing through the asteroid belt? Could it be a renegade planet, an alien probe, or something never seen before?

Join us as we analyze a most recent photographs & data from the James Webb Space Telescope, showing previously unseen footage of this mysterious object traversing the inner boundary of the gas giants' domain. From expert analysis to real-time satellite data, we look at every facet of what could be the decade's most significant space anomaly. Webb was not intended to track mysterious space events, yet it did so and discovered something previously unknown.

As conspiracy theories swirl & experts hunt for answers, we'll show you exactly what this item looked like, how fast it was moving, and why it could be more than simply a rock floating in space. Could this be a sign of intelligent some life? Isit a naturally occurring object that defies all known physical laws?

Don't miss this mind-blowing voyage into the unknown as we unravel the mysteries of what happened between Mars and Jupiter—& what it means for the future of space exploration. Since space has just become a lot more mysterious.

https://youtu.be/CpU1IJYs7ac?si=lVwXTISY-MgD-8G4

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James Webb Space Telescope has just made a shocking new discovery—and scientists are stunned. From mysterious galaxies shouldn’t exist to strange light signatures billions of light-years away,
fascinating space facts & even jaw-dropping space telescope discoveries & cosmic mysteries.🔍🌌 Mystery every discovery has a story. From latest to findings in quantum physics to bizarre anomalies buried under the ice…From lost civilizations & strange artifacts to mind-bending tech emerging in labs today. Here for reading...
https://youtu.be/hZCuaj9fXrE?si=TDq1exkDQq3_K-EY

[Tee tiong huat]

James Webb Space Telescope has just made a shocking new discovery—and scientists are stunned. From mysterious galaxies shouldn’t exist to strange light signatures billions of light-years away,
fascinating space facts & even jaw-dropping space telescope discoveries & cosmic mysteries.🔍🌌 Mystery every discovery has a story. From latest to findings in quantum physics to bizarre anomalies buried under the ice…From lost civilizations & strange artifacts to mind-bending tech emerging in labs today. Here for reading...
https://youtu.be/hZCuaj9fXrE?si=TDq1exkDQq3_K-EY

https://youtu.be/hZCuaj9fXrE?si=md7To3BDKkL2LGZh

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Scientists have managed to teleport light. Thks to a quantum property called entanglement, it’s possible to copy their info to another place. This same process could, in theory, be used to communicate across galaxies, opening door to a kind of interstellar messaging system. It might sound like pure science fiction… but it’s already happening. What’s this about teleporting light?. When scientists talk about teleporting light, they’re not referring to beaming objects space to space, like in sci-fi movie, they’re talking about is quantum teleportation, works in a different way, process transfers state of light particle (a photon) from one place to another, all happens throughquantum entanglement, a connection between particles lets them share info instantly, no matter how far apart they are. What is quantum entanglement?. Quantum entanglement is a phenomenon in quantum physics where 2-particles become so deeply connected that the state of one directly influences the state of the other, regardless of the distance between them. For example, if you change something in a particle on Earth, other particle, even if it’s in another galaxy, “knows” about it immediately & reacts.
Albert Einstein himself was aware of this phenomenon, dubbed it”spooky action at a distance” b'cos it defied physics logic (wasn’t only prediction Einstein made since been proven correct). This weird entanglement between particles allows for quantum teleportation of light. The important thing is implications, finding, could quite literally change the nature of communication, maybe changing our understanding of space, time & info.
Why this breakthrough could rewrite the future of communication...

Scientists achieve teleportation between quantum computers for the first time even. 06-28-2025

The promise of quantum computing come with a hitch: the more qubits you load into a single machine, the harder they are to keep in line. Scientists have tried shielding, error correction, even stacking qubits on top of one another, yet stability keeps slipping through their fingers. A fresh demonstration now points to different strategy – spreading workload across several small processors letting quantum teleportation knit them together in real time. Instead, as binary data. Teleportation in this context doesn’t fling matter through space. Instead, it transfers a qubit’s delicate “both-at-once” state to a partner qubit some distance away, using entanglement and a quick burst of old-fashioned binary data. Until recently, practical attempts rarely pushed beyond proof-of-concept.

Now researchers have used the teleportation trick to forge a working logic gate between two separate quantum chips sitting about six feet apart, hinting at a future where clusters of modest processors act as one mighty computer. Until recently, practical attempts rarely pushed beyond proof-of-concept. They hinting future clusters of processors act as mighty computer.

[Tee tiong huat]

Scientists achieve teleportation between quantum computers for the first time even. 06-28-2025

The promise of quantum computing come with a hitch: the more qubits you load into a single machine, the harder they are to keep in line. Scientists have tried shielding, error correction, even stacking qubits on top of one another, yet stability keeps slipping through their fingers. A fresh demonstration now points to different strategy – spreading workload across several small processors letting quantum teleportation knit them together in real time. Instead, as binary data. Teleportation in this context doesn’t fling matter through space. Instead, it transfers a qubit’s delicate “both-at-once” state to a partner qubit some distance away, using entanglement and a quick burst of old-fashioned binary data. Until recently, practical attempts rarely pushed beyond proof-of-concept.

Now researchers have used the teleportation trick to forge a working logic gate between two separate quantum chips sitting about six feet apart, hinting at a future where clusters of modest processors act as one mighty computer. Until recently, practical attempts rarely pushed beyond proof-of-concept. They hinting future clusters of processors act as mighty computer.

Quantum teleportation qubits


A qubit is valuable b"cos it can be zero and one at the same moment, yet that superposition collapses if the qubit feels a nudge from the outside world. By teleporting a qubit’s identity rather than physically hauling the particle around, engineers sidestep much of that fragility. The receiving end simply reshapes its own qubit to mirror the original & carries on with calculation. Latest experiment used a pair of “network” qubits – atoms optimized for sending & receiving optical signals – and a pair of “circuit” qubits dedicated to crunching data. Teleportation bridged the network qubits first; the entangled link then let the circuit qubits act as though they shared the same chip. That separation may sound modest, yet even a six-foot gap lets designers slide in upgrades, repairs, or entirely new hardware without cracking open a refrigerated chamber the size of a wardrobe.

Teleportation between quantum computers achieved for first time - Earth.com

Teleportation between quantum computers achieved for first time - Earth.com https://share.google/tC3izXPDAprsA4iUL