meteorite: Ait Saoun, Prob. EH3/4 0.136 grams.

Description: Hi my name is Luisa Stream, im part of Streaming meteorites. Im excited to be here, every meteorite I sell comes with a COA card and display case. Hope you have a wonderful day ❤️ ☮️ meteorite: Ait Saoun, Prob. EH3/4 0.136 grams. New Fall Morocco 08/06/2024!!! Ait Saoun (EH3/4) **Introduction:** Ait Saoun is a newly classified meteorite that fell near a small village bearing the same name in Morocco. This meteorite has been identified as an EH3/4 chondrite based on comprehensive analyses following its fall. The event, marked by a spectacular fireball, has attracted significant attention from both the scientific community and meteorite enthusiasts. **Event Details:** On the evening of August 6, 2024, at approximately 10:45 PM, a brilliant fireball streaked across the night sky above Ait Saoun. This celestial event was not only visible but also audible, as locals reported hearing a resounding explosion. The phenomenon captured the interest of onlookers across the Sahara Desert, setting the stage for a significant meteorite discovery the following day. **Discovery and Recovery:** The morning following the fireball's appearance, eager meteorite hunters descended upon the region in search of fragments. Their efforts proved fruitful as the first pieces were located within hours of the initial sighting. The announcement of the meteorite fall sparked a surge of activity, culminating in the collection of approximately 1-2 kilograms of fresh meteorites over several weeks. These discoveries included numerous small fragments, some of which displayed orientation and were characterized by glossy, shimmering fusion crusts. **Classification:** Initially thought to be a rare carbonaceous meteorite, further analysis revealed Ait Saoun to be a unique example of an EH3/4 chondrite. This classification highlights its significance in the study of the solar system's early materials, making it a valuable specimen for both research and collection. The classification is still pending with the meteoritical bulletin and should be uploaded in the next few weeks. **Featured Specimen:** We are pleased to offer a stunning 0.196 gram fragment of the Ait Saoun meteorite. This particular piece exhibits ultra-fresh fusion crust and showcases a remarkably preserved matrix that reveals dense chondrules. The aesthetic appeal of this fragment is enhanced by its vibrant colors and textures, making it an excellent addition to any collection. **Authentication and Presentation:** Each Ait Saoun meteorite fragment comes with a Certificate of Authenticity (COA) and is elegantly displayed in a protective case. This ensures that collectors can appreciate not only the beauty of the specimen but also its provenance and scientific significance. **Conclusion:** The Ait Saoun meteorite represents more than just a rare collectible; it provides a window into our solar system’s history and the processes that shaped it. With its stunning features and scientific importance, Ait Saoun is a must-have for collectors and enthusiasts alike. Don’t miss your chance to own a piece of the cosmos from this extraordinary event. The EH 3/4 meteorite classification refers to a specific type of enstatite chondrite, which is one of the more primitive classes of meteorites. These meteorites are rich in enstatite (a type of pyroxene) and typically contain minimal amounts of other minerals. The EH (high iron) chondrites, particularly, have a greater abundance of metallic Fe-Ni than their EL (low iron) counterparts. Significance and Relation to Mercury: 1. **Composition**: The chemical composition of EH chondrites shows a resemblance to the surface materials found on planet Mercury. The presence of high metal content, particularly the iron and nickel, aligns with what we observe on Mercury’s surface, which has a notably high metallic composition compared to other rocky bodies in the solar system. 2. **Formation and Origin**: There is a hypothesis that suggests that enstatite chondrites, including EH types, may originate from the innermost regions of the solar system, including areas that were thermally altered—potentially even related to Mercury itself. Studies of these meteorites help scientists understand the building blocks of terrestrial planets and the processes that led to their formation, including planetary differentiation and core formation. 3. **Planetary Analog**: Mercury is unique among the terrestrial planets due to its large iron core relative to its size. The EH chondrites provide insights into this aspect as their mineralogical compositions may reflect some of the processes occurring during the formation of Mercury itself. Some researchers consider these meteorites as analogs for understanding the geology and composition of Mercury, potentially supporting the idea that these meteorites represent remnants of the material that formed the planet. Research and Studies: Recent research has utilized both laboratory studies of meteorites and data from space missions (such as NASA's MESSENGER mission) to draw comparisons between the geochemical properties of EH chondrites and Mercury's surface data. This ongoing investigation is critical not just for understanding meteorite origins but also for deeper insights into the formation and evolution of Mercury and other inner solar system bodies. In summary, EH 3/4 meteorites are not just of interest for their compositional properties; they also play a significant role in advancing our understanding of how planetary bodies like Mercury formed and evolved in the early solar system.

Price: 35 USD

Location: Riverside, California

End Time: 2024-12-01T04:03:27.000Z

Shipping Cost: N/A USD