https://images-assets.nasa.gov/image/carina_nebula/carina_nebula~medium.jpg
🌌 “Cosmic Cliffs “ in the Carina Nebula
A stellar nursery captured by the James Webb Space Telescope
Credit: NASA
🌌 “Cosmic Cliffs “ in the Carina Nebula
A stellar nursery captured by the James Webb Space Telescope
Credit: NASA
👏2
https://assets.science.nasa.gov/dynamicimage/assets/science/missions/hubble/infographics/STScI-01EVSVGGW4CYHJSE3D7PEBM1C6.png?w=1200&h=743&fit=crop&crop=faces%2Cfocalpoint
This graphic compares illustrations of the three main types of galaxies (top) with actual photos of galaxies (bottom) that fit the categories.
Credit : Nasa
This graphic compares illustrations of the three main types of galaxies (top) with actual photos of galaxies (bottom) that fit the categories.
Credit : Nasa
❤2👍1
Radar Observations of Venus
This hemispheric view of Venus was created using radar observations, including images from NASA's Magellan spacecraft. Magellan imaged more than 98% of Venus. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar. The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Magellan launched on May 4, 1989, and was deployed from the cargo bay of Space Shuttle Atlantis on May 5, 1989. The spacecraft orbited Venus from Aug. 10, 1990, until Oct. 13, 1994 when the spacecraft was commanded to plunge into the atmosphere of Venus.
Image Credit: NASA/JPL-Caltech/USGS
This hemispheric view of Venus was created using radar observations, including images from NASA's Magellan spacecraft. Magellan imaged more than 98% of Venus. Gaps in the Magellan coverage were filled with images from the Earth-based Arecibo radar. The composite image was processed to improve contrast and to emphasize small features, and was color-coded to represent elevation. Magellan launched on May 4, 1989, and was deployed from the cargo bay of Space Shuttle Atlantis on May 5, 1989. The spacecraft orbited Venus from Aug. 10, 1990, until Oct. 13, 1994 when the spacecraft was commanded to plunge into the atmosphere of Venus.
Image Credit: NASA/JPL-Caltech/USGS
❤2👍1
NASA Telescopes Spot Surprisingly Mature Cluster in Early Universe
Astronomers using NASA’s Chandra X-ray Observatory and the James Webb Space Telescope discovered a massive protocluster called JADES-1 in the early universe. Located about 12.7 billion light-years away, it contains dozens of young galaxies and has a mass of around 20 trillion Suns. This finding suggests that galaxy clusters may have formed much earlier than previously thought.
Credit: NASA / ESA / JWST
Astronomers using NASA’s Chandra X-ray Observatory and the James Webb Space Telescope discovered a massive protocluster called JADES-1 in the early universe. Located about 12.7 billion light-years away, it contains dozens of young galaxies and has a mass of around 20 trillion Suns. This finding suggests that galaxy clusters may have formed much earlier than previously thought.
Credit: NASA / ESA / JWST
❤2
NASA’s James Webb Space Telescope revealed new details about the supermassive black hole at the center of the Circinus Galaxy. Surrounded by a thick ring of gas and dust, this hidden region shines brightly in infrared light, helping scientists better understand how black holes interact with their surroundings.
Credit: NASA / ESA / JWST
Credit: NASA / ESA / JWST
👍4
Stellar jet in Sh2-284 (NIRCam image)
The James Webb Space Telescope captured a massive stellar jet in the Milky Way’s Sh2-284 region. This stream of plasma, launched by a young star, stretches about 8 light-years across — showing that more massive stars create larger, more powerful jets.
Credit: NASA / ESA / CSA / JWST
The James Webb Space Telescope captured a massive stellar jet in the Milky Way’s Sh2-284 region. This stream of plasma, launched by a young star, stretches about 8 light-years across — showing that more massive stars create larger, more powerful jets.
Credit: NASA / ESA / CSA / JWST
👍2❤1
For the first time in over 50 years, humans are heading back toward the Moon.
NASA’s Artemis II mission launched on April 1, 2026, carrying four astronauts aboard the Orion spacecraft. After a series of precise orbital maneuvers around Earth, the crew performed a powerful burn that sent them beyond Earth’s orbit — into deep space.
This marks a historic return to human lunar exploration, opening the door to a new era of space travel.
Credit : Nasa
NASA’s Artemis II mission launched on April 1, 2026, carrying four astronauts aboard the Orion spacecraft. After a series of precise orbital maneuvers around Earth, the crew performed a powerful burn that sent them beyond Earth’s orbit — into deep space.
This marks a historic return to human lunar exploration, opening the door to a new era of space travel.
Credit : Nasa
👍2
🌕 Artemis II – Flight Day 6
On Flight Day 6, Artemis II reaches one of its most critical moments — the lunar flyby.
As the spacecraft passes behind the Moon, communication with Earth is temporarily lost, leaving the crew completely alone in deep space for about 40 minutes.
A moment of silence…
A moment of isolation…
A moment of history.
Humanity is once again orbiting the Moon.
Credit : Nasa
On Flight Day 6, Artemis II reaches one of its most critical moments — the lunar flyby.
As the spacecraft passes behind the Moon, communication with Earth is temporarily lost, leaving the crew completely alone in deep space for about 40 minutes.
A moment of silence…
A moment of isolation…
A moment of history.
Humanity is once again orbiting the Moon.
Credit : Nasa
👍3❤1