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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.

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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.

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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

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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

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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