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🚨 SCIENTISTS HAVE FOUND COMPLEX ORGANIC MOLECULES INSIDE MATERIAL RETURNED FROM ASTEROID RYUGU. Researchers analyzing samples from Japan’s Hayabusa2 mission have identified unusually large carbon-rich compounds in the asteroid. These molecules are more complex than many previously found in meteorites and may preserve chemical clues from the early Solar...

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TheNewPhysics

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36,433 görüntüleme • 21 gün önce •via X (Twitter)

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🚨 NASA has found sugars essential for life in stardust from asteroid Bennu • Ribose, the sugar that forms the backbone of RNA molecules, was found in the samples • Glucose, the primary fuel of modern life, has been detected on an asteroid for the first time • NASA believes that combined with previous detections of amino acids and nucleobases that all the necessary ingredients for life can be found within our solar system
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🚨 NASA has found sugars essential for life in stardust from asteroid Bennu • Ribose, the sugar that forms the backbone of RNA molecules, was found in the samples • Glucose, the primary fuel of modern life, has been detected on an asteroid for the first time • NASA believes that combined with previous detections of amino acids and nucleobases that all the necessary ingredients for life can be found within our solar system

Latest in space

132,613 görüntüleme • 6 ay önce

How did life begin on Earth? Our Dragonfly mission aims to find clues by exploring Titan, Saturn’s largest moon. As a pristine chemical "laboratory," Titan offers a unique window into the processes that may have led to complex molecules and the first signs of life! More:
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How did life begin on Earth? Our Dragonfly mission aims to find clues by exploring Titan, Saturn’s largest moon. As a pristine chemical "laboratory," Titan offers a unique window into the processes that may have led to complex molecules and the first signs of life! More:

ARCHIVED – NASA Astrobiology

116,402 görüntüleme • 1 yıl önce

How long would it take for Concorde to travel from Earth to the other planets in the solar system
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How long would it take for Concorde to travel from Earth to the other planets in the solar system

Science girl

166,919 görüntüleme • 9 ay önce

🚨 It's official: JWST Will Observe Interstellar Object 3I/ATLAS On August 6, 2025 🚨 The schedule from Space Telescope Science Institute shows two back to back NIRSpec IFU spectroscopy runs (10:15 UTC & 11:03 UTC) that will track the objects motion across the sky. JWST will look for chemical fingerprints, as it can detect water, CO₂, CO & other volatiles in infrared long before the comet reaches perihelion on Oct 29. Early phase spectra 'may' reveal the composition of pristine material untouched by the Sun for millions (or billions) of years. This is only the 3rd confirmed visitor from beyond our solar system, following Oumuamua & 2I/Borisov. JWST's eyes on 3I/ATLAS could tell us not just what it’s made of but where in the galaxy it may have come from. #JWST #3IATLAS #Astronomy #Space #Interstellar #NASA #Comet
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🚨 It's official: JWST Will Observe Interstellar Object 3I/ATLAS On August 6, 2025 🚨 The schedule from Space Telescope Science Institute shows two back to back NIRSpec IFU spectroscopy runs (10:15 UTC & 11:03 UTC) that will track the objects motion across the sky. JWST will look for chemical fingerprints, as it can detect water, CO₂, CO & other volatiles in infrared long before the comet reaches perihelion on Oct 29. Early phase spectra 'may' reveal the composition of pristine material untouched by the Sun for millions (or billions) of years. This is only the 3rd confirmed visitor from beyond our solar system, following Oumuamua & 2I/Borisov. JWST's eyes on 3I/ATLAS could tell us not just what it’s made of but where in the galaxy it may have come from. #JWST #3IATLAS #Astronomy #Space #Interstellar #NASA #Comet

Skywatch Signal

45,734 görüntüleme • 10 ay önce

Space objects such as meteoroids and asteroids move across the solar system and can collide with both Earth and the Moon. However, the Moon shows far more visible impact marks on its surface. One main reason is that Earth has a thick atmosphere that protects the planet. When many meteoroids enter Earth’s atmosphere, they burn up due to friction before they can reach the ground. This process creates the bright streaks of light we call shooting stars. The Moon, however, has almost no atmosphere, so incoming space rocks are not slowed down or burned up. They travel directly to the lunar surface and strike it at very high speed. Each collision creates an impact crater, throwing dust and rocks outward from the impact point. Over billions of years, thousands of these impacts have covered the Moon with craters. Unlike Earth, the Moon also has no wind, water, or weather to erase these craters, so they remain visible for millions or even billions of years. This is why the Moon looks heavily cratered when we observe it from Earth through telescopes.
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Space objects such as meteoroids and asteroids move across the solar system and can collide with both Earth and the Moon. However, the Moon shows far more visible impact marks on its surface. One main reason is that Earth has a thick atmosphere that protects the planet. When many meteoroids enter Earth’s atmosphere, they burn up due to friction before they can reach the ground. This process creates the bright streaks of light we call shooting stars. The Moon, however, has almost no atmosphere, so incoming space rocks are not slowed down or burned up. They travel directly to the lunar surface and strike it at very high speed. Each collision creates an impact crater, throwing dust and rocks outward from the impact point. Over billions of years, thousands of these impacts have covered the Moon with craters. Unlike Earth, the Moon also has no wind, water, or weather to erase these craters, so they remain visible for millions or even billions of years. This is why the Moon looks heavily cratered when we observe it from Earth through telescopes.

The Astronomy Guy

17,473 görüntüleme • 2 ay önce

Another explanation for Oumuamua's unusual shape has been proposed The asteroid Oumuamua, which flew through the Solar System in 2017, amazed scientists with its unprecedentedly elongated shape. It is 230 meters long and about 35 meters wide. Astronomers have never seen such objects before and tried to explain its origin. Oumuamua is the first known object to arrive from interstellar space. Its trajectory and speed left no doubt that it does not belong to the Solar System. The object rotated around its axis, changing its brightness, which made it possible to determine its size.
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Another explanation for Oumuamua's unusual shape has been proposed The asteroid Oumuamua, which flew through the Solar System in 2017, amazed scientists with its unprecedentedly elongated shape. It is 230 meters long and about 35 meters wide. Astronomers have never seen such objects before and tried to explain its origin. Oumuamua is the first known object to arrive from interstellar space. Its trajectory and speed left no doubt that it does not belong to the Solar System. The object rotated around its axis, changing its brightness, which made it possible to determine its size.

Black Hole

237,039 görüntüleme • 1 yıl önce

Another explanation for Oumuamua's unusual shape has been proposed The asteroid Oumuamua, which flew through the Solar System in 2017, amazed scientists with its unprecedentedly elongated shape. It is 230 meters long and about 35 meters wide. Astronomers have never seen such objects before and tried to explain its origin. Oumuamua is the first known object to arrive from interstellar space. Its trajectory and speed left no doubt that it does not belong to the Solar System. The object rotated around its axis, changing its brightness, which made it possible to determine its size.
0:12

Another explanation for Oumuamua's unusual shape has been proposed The asteroid Oumuamua, which flew through the Solar System in 2017, amazed scientists with its unprecedentedly elongated shape. It is 230 meters long and about 35 meters wide. Astronomers have never seen such objects before and tried to explain its origin. Oumuamua is the first known object to arrive from interstellar space. Its trajectory and speed left no doubt that it does not belong to the Solar System. The object rotated around its axis, changing its brightness, which made it possible to determine its size.

Black Hole

77,373 görüntüleme • 1 yıl önce

Did you know the James Webb Space Telescope isn’t orbiting Earth at all? The James Webb Space Telescope operates near the Sun–Earth L2 point, about 1.5 million km from Earth. From there, the Sun, Earth, and Moon stay on the same side of the telescope, allowing its giant sunshield to block their heat and light at the same time. That keeps Webb cold and stable enough to detect extremely faint infrared signals from deep space. Because of this, Webb can peer through clouds of cosmic dust and observe galaxies whose light has traveled for more than 13 billion years. Every image it captures is not just a view across space, but a look back into the early history of the universe.
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Did you know the James Webb Space Telescope isn’t orbiting Earth at all? The James Webb Space Telescope operates near the Sun–Earth L2 point, about 1.5 million km from Earth. From there, the Sun, Earth, and Moon stay on the same side of the telescope, allowing its giant sunshield to block their heat and light at the same time. That keeps Webb cold and stable enough to detect extremely faint infrared signals from deep space. Because of this, Webb can peer through clouds of cosmic dust and observe galaxies whose light has traveled for more than 13 billion years. Every image it captures is not just a view across space, but a look back into the early history of the universe.

Cosmos Archive

22,557 görüntüleme • 1 ay önce

Did you know all the planets in the Solar System could fit side by side in the space between Earth and the Moon and you would still have room to spare? [🎞️ starwalkapp]
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Did you know all the planets in the Solar System could fit side by side in the space between Earth and the Moon and you would still have room to spare? [🎞️ starwalkapp]

Massimo

26,343 görüntüleme • 10 ay önce

Earth and Moon seem so close to each other and the big planets of the Solar System look so big. But in reality, you could fit every planet in the Solar System between the Earth and the Moon and still have room to spare. [🎞️ starwalkapp]
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Earth and Moon seem so close to each other and the big planets of the Solar System look so big. But in reality, you could fit every planet in the Solar System between the Earth and the Moon and still have room to spare. [🎞️ starwalkapp]

Massimo

34,899 görüntüleme • 1 yıl önce

It is crazy that some computer scientists are saying that chemistry experiments don’t have to happen ‘in the real’. I guess we need to invent ‘Chemportation’ which teleports molecules from simulation to the real world using Molecular Actuation Ghosts In Chemistry (MAGIC).
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It is crazy that some computer scientists are saying that chemistry experiments don’t have to happen ‘in the real’. I guess we need to invent ‘Chemportation’ which teleports molecules from simulation to the real world using Molecular Actuation Ghosts In Chemistry (MAGIC).

Prof. Lee Cronin

15,028 görüntüleme • 1 yıl önce

Some microorganisms may have little trouble surviving being blasted into space on planetary debris when an asteroid hits. That finding comes from subjecting a particularly hardy species of desert bacteria to a simulation of the immense forces produced by an asteroid collision. The research lends support to the idea that life jettisoned off world could spread to and seed new worlds by clinging to space rocks. Learn more: News from Science
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Some microorganisms may have little trouble surviving being blasted into space on planetary debris when an asteroid hits. That finding comes from subjecting a particularly hardy species of desert bacteria to a simulation of the immense forces produced by an asteroid collision. The research lends support to the idea that life jettisoned off world could spread to and seed new worlds by clinging to space rocks. Learn more: News from Science

Science Magazine

34,338 görüntüleme • 3 ay önce

This period is called solar conjunction, and this time it will last from late December to late January. You can follow the current positions of the planets in "Eyes on the Solar System" 2/3
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This period is called solar conjunction, and this time it will last from late December to late January. You can follow the current positions of the planets in "Eyes on the Solar System" 2/3

NASA Mars

22,055 görüntüleme • 6 ay önce

Crimson Desert has this surface shader.. It has a transformative effect on the game visuals and it's seemingly applied to every object in the game. It doesn't look like tessellation, it appears to have artifacts from a screen-space effect. I believe they are using the height maps from every PBR material in the game to create some sort of screen space displacement mapping.
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Crimson Desert has this surface shader.. It has a transformative effect on the game visuals and it's seemingly applied to every object in the game. It doesn't look like tessellation, it appears to have artifacts from a screen-space effect. I believe they are using the height maps from every PBR material in the game to create some sort of screen space displacement mapping.

FR3NKD

202,856 görüntüleme • 2 ay önce

NEWS 🚨: James Webb Space Telescope has discovered that nearby super-Earth K2-18 b is so rich in liquid water that it could be a giant ocean world Making it one of the most promising habitable planets outside our solar system yet
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NEWS 🚨: James Webb Space Telescope has discovered that nearby super-Earth K2-18 b is so rich in liquid water that it could be a giant ocean world Making it one of the most promising habitable planets outside our solar system yet

Latest in space

406,520 görüntüleme • 11 ay önce

Artemis II Travel Time Across the Solar System From the Moon to Neptune, this shows how long the Space Launch System could take to reach each world — space distances are mind-blowing!
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Artemis II Travel Time Across the Solar System From the Moon to Neptune, this shows how long the Space Launch System could take to reach each world — space distances are mind-blowing!

Black Hole

107,180 görüntüleme • 2 ay önce

Artemis II Travel Time Across the Solar System From the Moon to Neptune, this shows how long the Space Launch System could take to reach each world — space distances are mind-blowing!
0:13

Artemis II Travel Time Across the Solar System From the Moon to Neptune, this shows how long the Space Launch System could take to reach each world — space distances are mind-blowing!

Black Hole

23,669 görüntüleme • 2 ay önce

Starlink is one of those rare technologies that feels like a cheat code for life. Plug it in, point it at the sky, and high-speed internet is literally beamed down to me from space. Technology is the closest thing we have to magic in the real world.
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Starlink is one of those rare technologies that feels like a cheat code for life. Plug it in, point it at the sky, and high-speed internet is literally beamed down to me from space. Technology is the closest thing we have to magic in the real world.

Teslaconomics

14,571 görüntüleme • 22 gün önce

Artificial embryo samples aboard Tiangong Space Station for life science research Space "artificial embryo" samples and other life science experiments delivered by the Tianzhou-10 cargo spacecraft have been installed into experiment modules aboard China's Tiangong space station, the Technology and Engineering Center for Space Utilization under the Chinese Academy of Sciences (CAS) said on Wednesday. The "artificial embryos" are stem cell-derived artificial human embryos. The embryos, though not true life forms and unable to develop into human babies, will help simulate the earliest stages of human development. Once the experiments are completed, the artificial embryo samples will be frozen in orbit and then returned to Earth on a future mission for side-by-side analysis with ground-based controls in laboratories on the ground. This effort is part of a broader suite of 41 space science experiments being deployed aboard Tiangong, supporting its latest round of research on the orbiting laboratory.
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Artificial embryo samples aboard Tiangong Space Station for life science research Space "artificial embryo" samples and other life science experiments delivered by the Tianzhou-10 cargo spacecraft have been installed into experiment modules aboard China's Tiangong space station, the Technology and Engineering Center for Space Utilization under the Chinese Academy of Sciences (CAS) said on Wednesday. The "artificial embryos" are stem cell-derived artificial human embryos. The embryos, though not true life forms and unable to develop into human babies, will help simulate the earliest stages of human development. Once the experiments are completed, the artificial embryo samples will be frozen in orbit and then returned to Earth on a future mission for side-by-side analysis with ground-based controls in laboratories on the ground. This effort is part of a broader suite of 41 space science experiments being deployed aboard Tiangong, supporting its latest round of research on the orbiting laboratory.

KABClub

23,478 görüntüleme • 1 ay önce

Meet the Xenobots, they are not machine, they are PROGRAMMABLE biological robots that can REPRODUCE. — The concept of xenobots has been a fascinating topic in the realm of developmental biology, and the latest findings have left me utterly astonished. These microscopic entities have been observed to not only self-assemble into complex forms but also exhibit a level of autonomy and adaptability that challenges our conventional understanding of multicellular organization. The researchers, led by Michael Levin, have successfully demonstrated that embryonic frog cells can spontaneously form into xenobots, which are capable of movement, self-organization, and even communication with one another. These xenobots are not merely passive aggregates of cells but rather dynamic systems that can adapt to their environment and respond to stimuli and be programmed to a degree. What's even more remarkable is that these xenobots have been found to be capable of reproduction. As Eva Jablonka, an evolutionary biologist, noted, "a xenobot may be induced to fragment and form two small ones," which raises the possibility of these entities undergoing a form of evolution. This has significant implications for our understanding of the origins of multicellularity and the evolution of complex life forms. The ability of xenobots to self-organize and adapt to their environment is thought to be mediated by a complex interplay of genetic and environmental factors. Levin suggests that the genome provides a set of rules and tendencies that allow cells to collectively "compute" their own solutions to growth and form, rather than being rigidly determined by a predetermined plan. The potential applications of this research are vast and varied, ranging from regenerative medicine to the development of novel biomaterials to a dystopian nightmare. However, what's most exciting is the prospect of gaining a deeper understanding of the fundamental principles that govern the emergence of complex life forms. As Levin notes, "we need a science of where larger-scale goals come from," and the study of xenobots may provide a key insight into this question. The discovery of xenobots and their remarkable properties has opened up a new frontier in the study of developmental biology and has significant implications for our understanding of the evolution of complex life forms.
0:15

Meet the Xenobots, they are not machine, they are PROGRAMMABLE biological robots that can REPRODUCE. — The concept of xenobots has been a fascinating topic in the realm of developmental biology, and the latest findings have left me utterly astonished. These microscopic entities have been observed to not only self-assemble into complex forms but also exhibit a level of autonomy and adaptability that challenges our conventional understanding of multicellular organization. The researchers, led by Michael Levin, have successfully demonstrated that embryonic frog cells can spontaneously form into xenobots, which are capable of movement, self-organization, and even communication with one another. These xenobots are not merely passive aggregates of cells but rather dynamic systems that can adapt to their environment and respond to stimuli and be programmed to a degree. What's even more remarkable is that these xenobots have been found to be capable of reproduction. As Eva Jablonka, an evolutionary biologist, noted, "a xenobot may be induced to fragment and form two small ones," which raises the possibility of these entities undergoing a form of evolution. This has significant implications for our understanding of the origins of multicellularity and the evolution of complex life forms. The ability of xenobots to self-organize and adapt to their environment is thought to be mediated by a complex interplay of genetic and environmental factors. Levin suggests that the genome provides a set of rules and tendencies that allow cells to collectively "compute" their own solutions to growth and form, rather than being rigidly determined by a predetermined plan. The potential applications of this research are vast and varied, ranging from regenerative medicine to the development of novel biomaterials to a dystopian nightmare. However, what's most exciting is the prospect of gaining a deeper understanding of the fundamental principles that govern the emergence of complex life forms. As Levin notes, "we need a science of where larger-scale goals come from," and the study of xenobots may provide a key insight into this question. The discovery of xenobots and their remarkable properties has opened up a new frontier in the study of developmental biology and has significant implications for our understanding of the evolution of complex life forms.

Brian Roemmele

50,780 görüntüleme • 1 yıl önce