NASA Astronomy Picture of the Day

March 9, 2026

The Cranium Nebula from the Webb Telescope

What's going on inside the head of this nebula? Dubbed the Exposed Cranium Nebula for its similarity to the human brain, what created the nebula remains a mystery. One thought is that the Cranium Nebula, also known as PMR 1, is a planetary nebula surrounding a white dwarf star. In this mode, the outer atmosphere was expelled when the original Sun-like star ran out of central nuclear fuel and contracted. A competing thought is that the central star is much more massive, possibly a Wolf-Rayet star, that is ejecting gas and dust via turbulent stellar winds. Adding to the intrigue is the dark vertical central division and the thin outer gaseous shell. The featured image was taken by the Webb Space Telescope in mid- infrared light, while a second image, included as a rollover, is in near-infrared. Future observations may reveal if this brainy system will quietly just fade from view or, many years from now, suddenly erupt in a powerful supernova.

https://apod.nasa.gov/apod/astropix.html

https://www.youtube.com/watch?v=AOMxy6V7Xmc

Comet MAPS Will Hit the Sun in 26 Days | S0 News and magic / panic Monday frens

Mar.9.2026

https://www.youtube.com/watch?v=RAvIWUJEknQ

https://x.com/MrMBB333/status/2030711353909129562

https://x.com/StefanBurnsGeo/status/2030955183715365022

https://x.com/WeatherMonitors/status/2030938291747565808

https://x.com/PrisonPlanet/status/2030681014599590362

https://x.com/schumannbot/status/2031007121290985551

https://www.swpc.noaa.gov/products/aurora-viewline-tonight-and-tomorrow-night-experimental

https://www.swpc.noaa.gov/

https://spaceweather.com/

>>24360820

Spectacular fireball over Europe sends meteorite crashing through roof of German home

March 9, 2026

A meteorite has crashed through the roof of a house in the city of Koblenz in the west of Germany after a spectacular fireball lit up the night sky above western Europe on Sunday evening, March 8.

More than 2,800 sightings of the fireball have been reported to the International Meteor Organization (IMO), with dozens of video recordings having been uploaded on social media.

Witnesses reported hearing multiple explosions as the space rock disintegrated in the atmosphere, showering fragments across the western German state of Rhineland-Palatinate.

According to available reports, multiple fragments of the meteorite have already been found in Koblenz's Güls district, which will allow researchers to determine where the meteorite came from.

Although damage to multiple houses has been reported by German media, no one has been injured in the incident. The largest discovered fragment reportedly pierced a hole the size of a soccer ball into one of the roofs.

Observers from France, Belgium and the Netherlands have also reported the sighting.

"A meteor just decomposed in front of my eyes," one user shared on X, together with an image showing a white smoky streak on the darkening sky.

Images of alleged meteorite fragments were published by the German Bild newspaper on Monday morning, March 9.

Millions of space rock fragments cross Earth's path every year. Most of those space rocks evaporate in the atmosphere during the fiery entry. On a clear night, several meteors streak across the sky in an hour.

Around 10,000 meteorites impact Earth's surface every year, but only a few hundred of those are recovered, most ending their lives at the bottom of the world's oceans.

https://www.space.com/stargazing/meteor-showers/spectacular-fireball-over-europe-sends-meteorite-crashing-through-roof-of-german-home

https://www.luxtimes.lu/luxembourg/meteor-lights-up-luxembourg-sky-sparking-speculation/140138193.html

https://www.bild.de/news/inland/in-rheinland-pfalz-meteoriten-teile-beschaedigen-haeuser-69adc532161cd9d527cd8e5c

https://fireballs.imo.net/members/imo_view/event/2026/1467

>>24360872

FlyPepeFly

Hiroshima-Scale Explosions that Nobody Warns Us About, Occur Every Year in Earth’s Atmosphere

March 9, 2026

Every year, an explosion with an energy output comparable to the Hiroshima atomic bomb occurs in our atmosphere without advance warning (as reviewed here).

But in contrast to the historic Hiroshima explosion on August 6, 1945, these annual explosions are not mentioned as breaking news because they involve a natural rock that measures a few meters in diameter which burns up in a fireball at an altitude of 30–50 kilometers.

In contrast to the atomic bomb which was intentionally detonated 600 meters above the city Hiroshima in order to maximize damage, the high altitude of meteor explosions makes most of them unimpactful for life on Earth.

Nevertheless, under rare circumstances some small meteoritic fragments trigger reported damage on the ground once every few years.

For example, on June 26, 2025 a meteorite, later determined to be from a one-ton, 4.56-billion-year-old rock, tore through the roof of a house near Atlanta.

The fragment was small, about the size of a cherry tomato, but it left a hole in the roof, went through air ducts, and slammed into the concrete floor.

In May 2023, a metallic meteorite, approximately the size of a grapefruit, crashed through the roof of a home, causing minor structural damage to the roof and floor but no injuries.

Given that house cover only a small fraction of Earth, numerous such incidents must occur every year over uninhabited areas.

Those who worry about the risk of being hit by a cosmic impactor from the sky, might wonder whether we could receive an advance warning about this risk. After all, we are used to weather forecasts which warn us about the risk from droplets of rain falling from the sky.

Could we imagine a future in which the daily forecast will also include a warning about a small meteor impact on a particular region? Obviously, no umbrella can withstand a meteor impact, but residents in the risk area might choose to leave the region in advance of the impact.

A new paper posted here, shows that the NSF-DOE Rubin Observatory will be able to warn earthlings about 1 in 25 of all imminent impactors larger than a meter, a few days in advance.

The paper simulated the expected discovery performance for imminent impactors using 343 meter-size objects previously recorded in NASA’s CNEOS database as fireballs in the Earth’s atmosphere.

The simulations indicate that the Rubin Observatory will discover at least one meter-size imminent impactors per year, representing about 4% of all Earth impactors larger than a meter in diameter and almost doubling the current discovery rate of imminent impactors.

The median time of discovery is 1.57 days before impact. The spatial distribution of the 11 previously discovered imminent impactors is biased towards the Northern Hemisphere, where the observatories that discovered them are located.

By observing the southern sky, the Rubin observatory will provide an important counterpart to existing asteroid surveys which are primarily located in the Northern Hemisphere.

Aside from information about the Solar system, material falling from the sky could also educate us about the makeup of our neighbors’ yards. About one in a thousand impactors might be interstellar in origin.

Here’s hoping that among the interstellar meteors, we might find one day a Voyager-like meteor that was launched by an extraterrestrial civilization on the other side of the Milky-Way galaxy billions of years ago.

Such an object would resemble an odd tennis ball that came from a neighbor’s yard. Meteor experts might respond to it like cave dwellers confronted for the first time with a cell phone, saying: “This is a rock of a type that we had never seen before.”

https://avi-loeb.medium.com/hiroshima-scale-explosions-that-nobody-warns-us-about-occur-every-year-in-earths-atmosphere-97b3c9443725

https://arxiv.org/pdf/2603.05587