First Orbital Rocket Launch from European Soil Delayed Due to Winds
The first attempt to launch an orbital rocket from European soil has been postponed due to high winds. Isar Aerospace, a Germany-based private space company, had planned to launch its Spectrum rocket from Andøya Spaceport in Norway on March 24. The three-hour launch window was set between 7:30 a.m. EST and 10:30 a.m. EDT. Strong winds at the launch site, however, led to the cancellation of the attempt. No damage or technical issues were reported with the rocket or the launch infrastructure. The company has stated that a new launch window is being determined in coordination with the spaceport.
Mission Details and Technical Aspects
According to reports, Spectrum is a two-stage launch vehicle developed entirely by Isar Aerospace. Standing 28 metres tall, the rocket is designed to carry payloads of up to 1,000 kilograms into low-Earth orbit. Its main stage is powered by nine turbopump liquid oxygen/propane engines, while a single Aquila engine is used for orbital manoeuvres. The launch site at Andøya Spaceport, which was built specifically to support Spectrum, has been operational since 2023. The maiden flight does not include customer payloads, as the company aims to collect flight data for future missions.
Commercial Contracts and Future Plans
Isar Aerospace has secured a contract with the Norwegian Space Agency for the launch of Arctic Ocean Surveillance satellites by 2028. Christian Hauglie-Hanssen, Director General of the Norwegian Space Agency, stated in an official release that the upcoming launches would be a significant step for Norwegian space initiatives. Despite the current delay, the company remains focused on achieving key mission milestones. A revised launch schedule is expected to be announced soon.
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Science
Meteorite From Outer Solar System Challenges Planet Formation Timeline in Early Solar System
A minuscule meteorite seems to be rewriting the history of our solar system. The 50-gram Northwest Africa 12264 has brought a new understanding of when and how rocky worlds came together. Inner planets such as Earth and Mars were thought to have formed earlier than their more distant siblings, given temperatures and composition. But a new study of this meteorite, which originates from beyond the asteroid belt, suggests that the birth of planets throughout the solar system occurred tens of millions of years earlier than previously believed, narrowing the gap in time between the solar system’s inner and outer surfaces.
Outer Solar System Meteorite Reveals Rocky Planets Likely Formed Simultaneously Across the Galaxy
As per a study led by Dr Ben Rider-Stokes of The Open University and published in Communications Earth & Environment, the meteorite’s chemical makeup offers critical evidence. Its chromium and oxygen isotope ratios place its origin in the outer solar system. Most strikingly, lead isotope dating determined its age to be about 4.564 billion years, almost identical to basalt samples from the inner solar system that represent early planetary crusts.
These findings directly challenge the previous assumption that rocky planets beyond Jupiter formed two to three million years later due to their water-rich composition. Ice and water were thought to slow differentiation, the internal layering of planetary bodies. But this meteorite, with its outer solar birth and inner solar age, points to a far more synchronised process of rocky planet formation.
Scientists note that the discovery is also consistent with observations of exoplanetary systems. Based on this and past observations of disks of dust and gas around other stars, the evidence of planetesimals forming quickly and over large orbital separations adds to the argument that early solar system evolution may have been more universal than thought.
As trivial as the time difference might be in the context of a universe, the question is huge. A new timeline of planet formation is not only a retelling of Earth’s history but may also help determine how astronomers think about how planets form in the galaxy more generally, providing new hints about where and how in the galaxy Earth-like planets could take shape.
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Related Stories
The entry of a third known object into our solar system has been confirmed on July 1, 2025 by the astronomers. This object is named 3I/ATLAS, where 3I stands for “Third Interstellar”, having a highly hyperbolic (eccentricity ≈ 6.2) orbit, confirming it is not bound to the Sun but is a true interstellar visitor. Only two such visitors, 1I/ʻOumuamua (2017) and 2I/Borisov (2019), had been seen before. Notably, 3I/ATLAS appears to be the largest and brightest interstellar wanderer yet discovered.
Comparison with previous interstellars
According to NASA, astronomers from the ATLAS survey first spotted the object on July 1, 2025, using a telescope in Chile. It immediately drew attention for its unusual motion. Shortly after discovery, observers saw a faint coma and tail, leading to its classification as comet C/2025 N1 (ATLAS).
This comet-like appearance is shared with 2I/Borisov, the second interstellar visitor. Global observatories now track 3I/ATLAS. It poses no threat but offers a rare opportunity to study alien material. Since 1I/ʻOumuamua was observed only as it was leaving the solar system, it was difficult for astronomers to get enough data on it to confirm its exact nature — hence the crazy theories about it being an alien spaceship — though it’s almost certainly an asteroid or a comet.
Size and Significance
3I/ATLAS is much larger and brighter than earlier interstellar visitors. It is about 15 kilometers (km) [9 miles] in diameter, with huge uncertainty, compared to 100m for 1I/’Oumuamua and less than 1km for 2I/Borisov. This brightness and size makes it a a better target for study. Astronomers are planning to analyze its light for chemical signatures from its home system to get clues about the formation of distant planetary systems.
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3I/ATLAS, interstellar object, Oumuamua, Borisov, astronomy, ATLAS survey, comet, hyperbolic orbit, solar system, NASA, space science, alien worlds, planetary formation, James Webb Telescope
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