• The Super Beaver Moon enshrouded the Pleiades cluster in a bright halo on its path across the zenith; Jupiter was nearby showing three of its Galilean moons. The final supermoon of 2024 now waits above the western horizon for the dawn, illuminating the landscape below in pale moonlight. #SuperBeaverMoon #BeaverMoon #FrostyMoon #Supermoon2024 #Supermoon #Moon #Moonlight #Pleiades #NightSky #Zenith #Perigee #Astronomy
    The Super Beaver Moon enshrouded the Pleiades cluster in a bright halo on its path across the zenith; Jupiter was nearby showing three of its Galilean moons. The final supermoon of 2024 now waits above the western horizon for the dawn, illuminating the landscape below in pale moonlight. #SuperBeaverMoon #BeaverMoon #FrostyMoon #Supermoon2024 #Supermoon #Moon #Moonlight #Pleiades #NightSky #Zenith #Perigee #Astronomy
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  • The Super Beaver Moon has risen! The Pleiades (Messier 45) and Uranus are below the Moon as the final supermoon of 2024 begins crossing the night sky in the constellation Taurus; Jupiter and Orion are rising behind the spectacle. The Moon will eclipse the Pleiades star cluster when it reaches the zenith at approximately 0600 GMT tonight. #SuperBeaverMoon #BeaverMoon #FrostyMoon #Supermoon2024 #Supermoon #Moon #Pleiades #NightSky #Zenith #Perigee #Astronomy
    The Super Beaver Moon has risen! The Pleiades (Messier 45) and Uranus are below the Moon as the final supermoon of 2024 begins crossing the night sky in the constellation Taurus; Jupiter and Orion are rising behind the spectacle. The Moon will eclipse the Pleiades star cluster when it reaches the zenith at approximately 0600 GMT tonight. #SuperBeaverMoon #BeaverMoon #FrostyMoon #Supermoon2024 #Supermoon #Moon #Pleiades #NightSky #Zenith #Perigee #Astronomy
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  • The Moon becomes a Super Beaver Moon on Friday evening, the fourth and final supermoon of 2024 that is joined by Uranus and Jupiter in the constellation Taurus. The full moon will eclipse the Pleiades cluster at the zenith on November 16th at approximately 0600 GMT. #SuperBeaverMoon #BeaverMoon #FrostyMoon #Supermoon2024 #Supermoon #Moon #Pleiades #NightSky #Zenith #Perigee #Astronomy

    https://earthsky.org/moon-phases/november-full-moon/
    The Moon becomes a Super Beaver Moon on Friday evening, the fourth and final supermoon of 2024 that is joined by Uranus and Jupiter in the constellation Taurus. The full moon will eclipse the Pleiades cluster at the zenith on November 16th at approximately 0600 GMT. #SuperBeaverMoon #BeaverMoon #FrostyMoon #Supermoon2024 #Supermoon #Moon #Pleiades #NightSky #Zenith #Perigee #Astronomy https://earthsky.org/moon-phases/november-full-moon/
    0 Comentários 0 Compartilhamentos 690 Visualizações
  • The Super Hunter’s Moon in the constellation Pisces crosses the sky tonight with the planets Saturn, Neptune, Uranus, and Jupiter. This is the third of four supermoons for 2024, and the closest approach to Earth; the final supermoon for this year arrives on November 15th. #SuperHuntersMoon #HuntersMoon #HuntersSupermoon #Supermoon2024 #Supermoon #Moon #Perigee #AutumnalEquinox #Spooky #Astronomy
    The Super Hunter’s Moon in the constellation Pisces crosses the sky tonight with the planets Saturn, Neptune, Uranus, and Jupiter. This is the third of four supermoons for 2024, and the closest approach to Earth; the final supermoon for this year arrives on November 15th. #SuperHuntersMoon #HuntersMoon #HuntersSupermoon #Supermoon2024 #Supermoon #Moon #Perigee #AutumnalEquinox #Spooky #Astronomy
    0 Comentários 0 Compartilhamentos 1K Visualizações
  • Jupiter's icy moons has blasted off from Cape Canaveral, Florida
    NASA's exploration of Jupiter's moons, particularly the Galilean moons (Io, Europa, Ganymede, and Callisto), has been a focus of planetary science for many years. One of the most significant missions was the Galileo spacecraft, which was launched on October 18, 1989, and arrived at Jupiter in 1995.
    Jupiter's icy moons has blasted off from Cape Canaveral, Florida NASA's exploration of Jupiter's moons, particularly the Galilean moons (Io, Europa, Ganymede, and Callisto), has been a focus of planetary science for many years. One of the most significant missions was the Galileo spacecraft, which was launched on October 18, 1989, and arrived at Jupiter in 1995.
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  • Massimo Luciani - Structures found in the Great Red Spot area on Jupiter:

    https://english.tachyonbeam.com/2024/06/26/structures-found-in-the-great-red-spot-area-on-jupiter/

    #GreatRedSpot #Jupiter #JamesWebb #SpaceTelescope #JWST #Infrared #Spectroscopy #NIRSpec #SolarSystemScience #PlanetaryScience #AtmosphericPhysics #Physics #Astronomy
    Massimo Luciani - Structures found in the Great Red Spot area on Jupiter: https://english.tachyonbeam.com/2024/06/26/structures-found-in-the-great-red-spot-area-on-jupiter/ #GreatRedSpot #Jupiter #JamesWebb #SpaceTelescope #JWST #Infrared #Spectroscopy #NIRSpec #SolarSystemScience #PlanetaryScience #AtmosphericPhysics #Physics #Astronomy
    ENGLISH.TACHYONBEAM.COM
    Structures found in the Great Red Spot area on Jupiter
    An article published in the journal 'Nature Astronomy' reports the identification of structures in the planet Jupiter's upper atmosphere above the Great Red...
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  • "NASA’s Juno spacecraft captured these views of Jupiter with a flyby of the giant planet on March 7, 2024. This provide a detailed look at Jupiter’s colorful belts and swirling storms, including the Great Red Spot." Appropriation issue reveals something of the glimpses of the tiny moon Amalthea is the reddest object in the solar system and it appears to give out more heat than it receives from the sun.
    "NASA’s Juno spacecraft captured these views of Jupiter with a flyby of the giant planet on March 7, 2024. This provide a detailed look at Jupiter’s colorful belts and swirling storms, including the Great Red Spot." Appropriation issue reveals something of the glimpses of the tiny moon Amalthea is the reddest object in the solar system and it appears to give out more heat than it receives from the sun.
    0 Comentários 0 Compartilhamentos 1K Visualizações
  • Just visited my first home on Saturday. The weather was perfect and the sun was shining. Call and we will do lunch together on Jupiter s moon.
    Just visited my first home on Saturday. The weather was perfect and the sun was shining. Call and we will do lunch together on Jupiter s moon.
    Like
    1
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  • W1935, a brown dwarf
    known as W1935 is more massive than Jupiter, and exhibited infrared emissions from methane — a finding that has puzzled scientists due to the brown dwarf's cold nature and lack of a host star to provide energy for such atmospheric phenomena.

    W1935, a brown dwarf located 47 light-years from Earth, has intrigued astronomers with its unexpected behavior. Despite being more massive than Jupiter and lacking a host star, it exhibits infrared emissions from methane in its upper atmosphere. This phenomenon is puzzling because the brown dwarf is cold and lacks an obvious energy source to fuel such atmospheric processes

    On Earth, aurorae are created when energetic particles from the Sun interact with our magnetic field, producing captivating curtains of light near the poles. Similarly, Jupiter and Saturn have auroral processes, including contributions from their active moons like Io and Enceladus. However, for isolated brown dwarfs like W1935, the absence of a stellar wind complicates the explanation for the extra energy needed to produce methane glow. Scientists speculate that internal processes or interactions with interstellar plasma or nearby active moons may play a role in this intriguing phenomenon.

    The discovery of methane emission on W1935 is akin to a fascinating detective story, unraveling the mysteries of celestial phenomena.

    Mysterious aurora over 'failed star' 'shocking' discovery that transformed into pure fantasy the astrophysics of today and education into university worldwide.

    The recent discovery of a mysterious aurora around a brown dwarf has left astronomers astounded. This celestial body, known as W1935, is larger than Jupiter and exhibits infrared emissions from methane in its upper atmosphere. What makes this finding even more intriguing is that W1935 lacks a host star to provide energy for such atmospheric phenomena.

    Let’s delve into the captivating details:

    Brown Dwarfs: These enigmatic objects are larger than gas giant planets but smaller than stars. They form similarly to stars, arising from collapsing clouds of gas and dust. Brown dwarfs are often isolated, just like W1935. Their nickname, “failed stars,” stems from their inability to sustain nuclear fusion like main-sequence stars.

    Auroras: On Earth, we witness auroras as the mesmerizing northern and southern lights. These luminous displays occur when charged solar particles interact with molecules in our atmosphere. Auroras are also observed on other planets, such as Jupiter and Saturn, and over active moons like Io and Enceladus. However, W1935’s aurora is baffling because there are no nearby stars to supply charged particles for this phenomenon .

    Infrared Clues: The James Webb Space Telescope (JWST) detected the potential aurora over W1935 through infrared emissions from methane. Similar emissions occur on Jupiter and Saturn due to charged particles heating their atmospheres and creating aurorae. Scientists speculate that internal processes within W1935 or interactions with interstellar plasma might be responsible for its mysterious glow. Alternatively, an influx of particles from a nearby active moon could play a role.

    This discovery transforms the astrophysics of today, sparking curiosity and wonder across universities worldwide. The universe continues to surprise us with its hidden secrets, inviting us to explore further into the cosmic unknown.

    W1935, a brown dwarf known as W1935 is more massive than Jupiter, and exhibited infrared emissions from methane — a finding that has puzzled scientists due to the brown dwarf's cold nature and lack of a host star to provide energy for such atmospheric phenomena. W1935, a brown dwarf located 47 light-years from Earth, has intrigued astronomers with its unexpected behavior. Despite being more massive than Jupiter and lacking a host star, it exhibits infrared emissions from methane in its upper atmosphere. This phenomenon is puzzling because the brown dwarf is cold and lacks an obvious energy source to fuel such atmospheric processes On Earth, aurorae are created when energetic particles from the Sun interact with our magnetic field, producing captivating curtains of light near the poles. Similarly, Jupiter and Saturn have auroral processes, including contributions from their active moons like Io and Enceladus. However, for isolated brown dwarfs like W1935, the absence of a stellar wind complicates the explanation for the extra energy needed to produce methane glow. Scientists speculate that internal processes or interactions with interstellar plasma or nearby active moons may play a role in this intriguing phenomenon. The discovery of methane emission on W1935 is akin to a fascinating detective story, unraveling the mysteries of celestial phenomena. Mysterious aurora over 'failed star' 'shocking' discovery that transformed into pure fantasy the astrophysics of today and education into university worldwide. The recent discovery of a mysterious aurora around a brown dwarf has left astronomers astounded. This celestial body, known as W1935, is larger than Jupiter and exhibits infrared emissions from methane in its upper atmosphere. What makes this finding even more intriguing is that W1935 lacks a host star to provide energy for such atmospheric phenomena. Let’s delve into the captivating details: Brown Dwarfs: These enigmatic objects are larger than gas giant planets but smaller than stars. They form similarly to stars, arising from collapsing clouds of gas and dust. Brown dwarfs are often isolated, just like W1935. Their nickname, “failed stars,” stems from their inability to sustain nuclear fusion like main-sequence stars. Auroras: On Earth, we witness auroras as the mesmerizing northern and southern lights. These luminous displays occur when charged solar particles interact with molecules in our atmosphere. Auroras are also observed on other planets, such as Jupiter and Saturn, and over active moons like Io and Enceladus. However, W1935’s aurora is baffling because there are no nearby stars to supply charged particles for this phenomenon . Infrared Clues: The James Webb Space Telescope (JWST) detected the potential aurora over W1935 through infrared emissions from methane. Similar emissions occur on Jupiter and Saturn due to charged particles heating their atmospheres and creating aurorae. Scientists speculate that internal processes within W1935 or interactions with interstellar plasma might be responsible for its mysterious glow. Alternatively, an influx of particles from a nearby active moon could play a role. This discovery transforms the astrophysics of today, sparking curiosity and wonder across universities worldwide. The universe continues to surprise us with its hidden secrets, inviting us to explore further into the cosmic unknown.
    0 Comentários 0 Compartilhamentos 4K Visualizações
  • https://medforth.biz/offended-by-ovids-jupiter-but-not-by-hamas-rapes/
    https://medforth.biz/offended-by-ovids-jupiter-but-not-by-hamas-rapes/
    0 Comentários 0 Compartilhamentos 703 Visualizações
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