πͺ NASAβs upcoming DAVINCI mission is set to test a new kind of spaceship technology as it descends through the thick atmosphere of Venus in the late 2020s. The spacecraft will use a combination of heat shielding and parachutes designed to survive the planetβs crushing pressure and scorching surface temperaturesβover 460Β°Cβpushing the limits of materials and engineering needed for future robotic explorers of extreme worlds like Venus and beyond. β¨
#spaceships β‘ #technology β‘ #Venus β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#spaceships β‘ #technology β‘ #Venus β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€8π₯6π3π2π€1
πͺ In 2023, astronomers using the Australian Square Kilometre Array Pathfinder (ASKAP) discovered a repeating fast radio burst called FRB 20220912A in the spiral galaxy ESO 601-G024, about 1 billion light-years away. Unlike other repeating bursts, FRB 20220912A's signal showed a strong "downward drift" in frequency, meaning each pulse slowly slid to lower radio frequencies over just a few milliseconds, helping scientists trace the physical processes at the burst's origin. β¨
#fastbursts β‘ #radio β‘ #spiralgalaxy β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#fastbursts β‘ #radio β‘ #spiralgalaxy β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€6π₯4π3π€3π2β€βπ₯1πΎ1
πͺ The galaxy UGC 4881, located about 500 million light-years away, has a remarkable "double-tailed" structureβtwo long streams of stars and gas extending in opposite directions. This unusual shape was formed when two spiral galaxies collided and merged, creating a cosmic bridge and tidal tails that make UGC 4881 stand out among the universeβs strangest-looking galaxies. β¨
#galaxies β‘ #collisions β‘ #tidal-tails β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#galaxies β‘ #collisions β‘ #tidal-tails β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€11π₯6π3π2π€1
πͺ In the spiral galaxy NGC 3147, astronomers have discovered a supermassive black hole encircled by a disk of gas that defies expectationsβit's thin and spinning at nearly the speed predicted for much larger, brighter disks found around actively feeding black holes. This surprising find, made with the Hubble Space Telescope, shows that even "starving" black holes can maintain disks behaving like those from the most powerful galactic cores, challenging what scientists thought they knew about black hole feeding habits. β¨
#blackholes β‘ #hubble β‘ #galaxiess β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#blackholes β‘ #hubble β‘ #galaxiess β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€8π₯5π3π3β€βπ₯1π€1
πͺ In the galaxy ESO 184-G82, astronomers observed GRB 980425βa gamma-ray burst that was directly linked to a supernova explosion called SN 1998bw. Gamma-ray bursts are intense flashes of the highest-energy light in the universe, and the connection in ESO 184-G82 revealed that some of these powerful bursts are caused when massive stars end their lives in energetic supernovae, giving scientists a rare glimpse into how the most violent stellar deaths can unleash extraordinary cosmic fireworks. β¨
#gamma-ray-bursts β‘ #supernovae β‘ #galaxies β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#gamma-ray-bursts β‘ #supernovae β‘ #galaxies β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€9π₯5π3π2π€1
πͺ The magnetar PSR J1745β2900, found near the center of our Milky Way close to Sagittarius A*, showcases magnetic fields so intense they can disrupt atoms and twist space itself. Its field strength is estimated at over a quadrillion times higher than Earth's, making PSR J1745β2900 one of the most extreme magnets in the galaxy and a prime example of how magnetars stretch the laws of physics to their limits. β¨
#magnetar β‘ #neutronstar β‘ #extremes β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#magnetar β‘ #neutronstar β‘ #extremes β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€11π₯6π3π2π€1
πͺ The star HE 0107-5240, found in the constellation Phoenix, is one of the most metal-poor stars ever discovered, meaning it contains almost no elements heavier than hydrogen and helium. This rare "primordial" star likely formed from the material left over after the very first stars died, making it an ancient relic that helps scientists study the universe's earliest generations of stars. β¨
#unusualstars β‘ #primordialstars β‘ #astrophysics β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#unusualstars β‘ #primordialstars β‘ #astrophysics β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€9π₯5π3π2π€1
πͺ Supernova SN 2016gkg, discovered in the galaxy NGC 613, gave astronomers their first direct images of a star just hours before it exploded. By comparing "before and after" photos, scientists identified the doomed starβa yellow supergiant about 20 times the mass of our Sunβproviding crucial evidence for how massive stars end their lives and offering a rare look at the final moments before a cosmic blast. β¨
#supernovae β‘ #ngc613 β‘ #astronomy β‘ #nasa β‘ #galaxy β‘ #stars β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#supernovae β‘ #ngc613 β‘ #astronomy β‘ #nasa β‘ #galaxy β‘ #stars β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€8π4π₯3π3β€βπ₯1π€1
πͺ One of the most intriguing places where life could exist is the subsurface ocean of Saturnβs moon Mimas, newly suggested by data showing the moon wobbles in its orbitβa hint of a liquid layer beneath its icy crust. If confirmed, Mimas would join the ranks of ocean worlds like Europa and Enceladus, providing another possible habitat for life far from the warmth of the Sun. β¨
#Mimas β‘ #oceanworlds β‘ #life β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#Mimas β‘ #oceanworlds β‘ #life β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
π₯7β€6π3π2β€βπ₯1π€1
πͺ In the galaxy SDSS J1356+1026, astronomers have witnessed a colossal bubble of gas over 30,000 light-years wide being blown outward from the galaxyβs core. This bubble is powered by fierce winds from a supermassive black hole as it devours material, creating giant outflows that glow in X-ray and optical lightβa real-life example of black holes shaping their host galaxies through dramatic, large-scale eruptions. β¨
#blackhole β‘ #outflow β‘ #phenomena β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#blackhole β‘ #outflow β‘ #phenomena β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€10π₯5π3π2β€βπ₯1π€1
πͺ On Mercury, time passes at a different rate than on Earth because the planet orbits much closer to the Sun and feels stronger gravityβa real effect called time dilation. According to Einstein's theory of relativity, stronger gravity slows down the flow of time, so a clock sitting on Mercury's surface would actually run slightly slower than an identical clock on Earth, making time itself stretch differently across the solar system. β¨
#timedilation β‘ #relativity β‘ #mercury β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#timedilation β‘ #relativity β‘ #mercury β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€9π₯5π4π€2π2β€βπ₯1
πͺ On the outskirts of our galaxy, astronomers have detected a mysterious radio signal from the direction of the dwarf galaxy Leo I, which sits about 820,000 light-years away. While this signal is not evidence of aliens, its unusual features have made Leo I a target for SETI (Search for Extraterrestrial Intelligence) researchers who are carefully studying its properties to rule out natural sourcesβdemonstrating how real cosmic signals from known galaxies push the boundaries of the scientific search for life beyond Earth. β¨
#aliens β‘ #SETI β‘ #galaxies β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#aliens β‘ #SETI β‘ #galaxies β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€8π₯7π3π2π€1
πͺ Asteroid (2023) JK, discovered in May 2023, is about 200 meters wide and passed within 730,000 kilometers of Earthβcloser than twice the distance to the Moon. Its swift approach was detected less than a week before its closest pass, demonstrating how new near-Earth objects can still surprise astronomers and reminding us that even mid-sized space rocks can appear on short notice. β¨
#asteroids β‘ #nearearth β‘ #spacehazards β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#asteroids β‘ #nearearth β‘ #spacehazards β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€7π₯5π3π2π€1
πͺ The cosmic microwave backgroundβoften called the afterglow of the Big Bangβshows that the universe was filled with a hot, dense plasma about 380,000 years after its birth. When the universe cooled enough for atoms to form, light was finally able to travel freely, leaving behind a faint, uniform glow that we still detect today and which blankets galaxies like the Milky Way and Andromeda in every direction. β¨
#bigbang β‘ #earlyuniverse β‘ #cosmology β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#bigbang β‘ #earlyuniverse β‘ #cosmology β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€10π₯5π3π2π€1
πͺ The pulsar PSR J0537β6910, spinning an incredible 62 times per second, sits in the Tarantula Nebula of the Large Magellanic Cloud and holds the record for the fastest known "glitches." Glitches are sudden jumps in a pulsarβs rotation speedβcaused by internal adjustments in these ultra-dense, spinning neutron starsβand PSR J0537β6910βs frequent glitches help scientists unlock secrets about the strange matter inside these cosmic lighthouses. β¨
#pulsars β‘ #neutronstars β‘ #tarantulanebula β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#pulsars β‘ #neutronstars β‘ #tarantulanebula β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€9π₯7π3π2β€βπ₯1π€1
πͺ Asteroid (4581) Asclepius, discovered in 1989, is a near-Earth object that passed just 700,000 kilometers from our planetβless than twice the distance to the Moonβshortly after its discovery. Its previous approach in 1989 would have caused a massive explosion if it had impacted, making Asclepius a stark reminder of how some dangerous asteroids can slip past unnoticed until they're already close. β¨
#asteroids β‘ #nearearth β‘ #impact β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#asteroids β‘ #nearearth β‘ #impact β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€7π₯7π4π3β€βπ₯1π€1
πͺ At the far edge of our solar system lies the Oort Cloud, a vast, icy shell of comets stretching nearly a light-year from the Sunβso distant that the Voyager 1 spacecraft, traveling for over 45 years, hasn't even come close to reaching it. The Oort Cloud marks the outermost boundary of the Sun's gravitational reach, making the distances between the planets seem tiny by comparison and reminding us just how deep the space beyond our solar system truly is. β¨
#spacedistances β‘ #oortcloud β‘ #solarη³»η» β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#spacedistances β‘ #oortcloud β‘ #solarη³»η» β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€8π₯5π3π€2π2
πͺ The future of interstellar travel could be changed by the development of solar sail technology, which uses the gentle push of sunlight to accelerate spacecraft over time. Real test missions like IKAROS, sent to Venus by the Japanese space agency, have already shown that solar sails can propel probes using only light, inspiring scientists to dream of journeys to distant stars like Alpha Centauri in the decades to come. β¨
#spaceships β‘ #technology β‘ #alphasentauri β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#spaceships β‘ #technology β‘ #alphasentauri β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€9π₯5π3π2π€1
πͺ The galaxy IC 1613, a faint dwarf galaxy in the constellation Cetus, allows astronomers to measure the speed of light by timing how long it takes for changes in certain stars' brightness (called Cepheid variables) to reach Earth. Because the distance to IC 1613 is well knownβabout 2.4 million light-yearsβthese observations help scientists confirm that light travels at the same universal speed of 299,792 kilometers per second, even across vast reaches of space. β¨
#speedoflight β‘ #IC1613 β‘ #space β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos
πsubscribe Universe Mysteries
πmore Channels
β
#speedoflight β‘ #IC1613 β‘ #space β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos
πsubscribe Universe Mysteries
πmore Channels
β
β€9π₯6π4π2π€1
πͺ In 2019, astronomers detected gravitational waves from the collision of two white dwarf stars in the galaxy NGC 4993. White dwarfs are the dense, burned-out cores of stars like our Sun, and when they merge, the resulting ripples in spaceβgravitational wavesβallow scientists to study these rare cosmic smashups in entirely new ways beyond traditional light-based astronomy. β¨
#gravitationalwaves β‘ #NGC4993 β‘ #whitedwarfs β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#gravitationalwaves β‘ #NGC4993 β‘ #whitedwarfs β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
π₯9β€8π4π2π1π€1
πͺ Deep inside Jupiter, scientists believe intense pressure transforms hydrogen gas into a rare form called "metallic hydrogen," where hydrogen atoms are squeezed so tightly they act like an electrical conductor. This strange metallic core may be the key to Jupiterβs powerful magnetic field, and studying it helps unlock the hidden forces driving the solar system's largest planet. β¨
#giantplanets β‘ #metallichydrogen β‘ #jupiter β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
#giantplanets β‘ #metallichydrogen β‘ #jupiter β‘ #nasa β‘ #galaxy β‘ #stars β‘ #astronomy β‘ #universe β‘ #cosmos β‘ #space
πsubscribe Universe Mysteries
πmore Channels
β
β€12π₯7π3π2β€βπ₯1π€1