¶ Today's featured news includes orbital drama and seasonal changes on Mars
Welcome to Astronomy Daily.
I'm excited to bring you another fascinating day of space and astronomy news. There's quite a bit to cover today, from orbital drama to seasonal changes on the Red planet. We'll start with a concerning development in Earth orbit, where a retired military weather satellite has broken up into dozens of pieces, adding to a pattern of similar incidents with
these particular spacecraft. Then we'll look ahead to SpaceX's upcoming Bandwagon two mission, which will carry an impressive array of thirty different payloads into orbit, including an advanced.
Radar satellite for South Korea.
We'll also take a journey to Mars, where NASA's Mars Reconnaissance Orbiter has been capturing some incredible seasonal phenomena. Unlike Earth's gentle seasonal transitions, Mars experiences some remarkably explosive changes during its spring thaw, and I can't wait to tell you all about them. Plus, we've got to look at a new theory about that mysterious dark energy, and we'll revisit an age old debate with some new research.
¶ A defunct military weather satellite experienced a low velocity fragmentation event on December 18
So let's get started.
In a concerning development, the US Space Force has reported that a defunct military weather satellite experienced what they're calling a low velocity fragmentation event on December eighteenth. The incident occurred at an altitude of about eight hundred and forty kilometers, creating more than fifty pieces of trackable debris, according to
radar observations from commercial space monitoring company Leo Labs. The satellite in question, known as DMSP five D two F fourteen, was launched back in nineteen ninety seven as part of the Defense Meteorological Satellite Program. After serving its purpose for over two decades, it was retired in twenty twenty, but
remained in its Sun synchronous orbit. Weighing about seven hundred and fifty kilograms, this spacecraft is now the latest in a series of similar satellites to meet this unfortunate fate. What's particularly concerning is that this isn't an isolated incident. Several other satellites from the same family have experienced similar breaks make ups over the years. In October twenty sixteen, the F twelve satellite broke apart, following the fragmentation of
F thirteen. In February twenty fifteen, going back even further, the F eleven spacecraft created fifty six pieces of tracked debris when it broke up in two thousand four. The root cause appears to be a known design flaw in these satellites battery assemblies that makes them vulnerable to explosion. This issue isn't limited to military satellites either. Similar civilian weather satellites operated by Noah have suffered the same fate, with Noah sixteen breaking up in twenty fifteen and Noah
seventeen following suit in twenty twenty one. Most troubling is that these breakups occurred despite attempts to prevent them through a process called passivation, where satellites are prepared for decommissioning by draining their batteries and venting fuel tanks.
Industry experts note.
That this process may not be fully effective on older satellites that were designed before modern orbital debris mitigation practices were established. Next up, SpaceX is gearing up for an
¶ SpaceX is gearing up for an exciting rideshare mission on December 21
exciting ride share mission from Vandenberg Space for Space in California. The Bandwagon two mission, scheduled for a three thirty four am Pacific launch on December twenty first, will carry an impressive array of thirty different payloads to orbit the Star of this mission is a sophisticated radar satellite for South Korea, capable of seeing through clouds and darkness to capture detailed
images of Earth. This spacecraft is part of South Korea's four hundred and twenty five project, a constellation of military Earth observation satellites that combines both optical and radar imaging capabilities. Among the other fascinating payloads are two satellites from Ice that will join their radar imaging constellation, and a trio of satellites from Hawkeye three hundred and sixty that will
work together to pinpoint radio frequency transmissions from orbit. Two compact weather satellites from tomorrow dot Io will collect valuable atmospheric data, while LIZZISATI will test out new imaging and computing technologies in space. The mission will use Falcon nine booster B one THY seventy one, making its twenty first flight. After sending its passengers on their way, the booster will return to land at landing Zone four, right next to
its launch pad. The second stage will perform a carefully choreographed series of burns to deploy the satellites at two different altitudes, most at five hundred and ten kilometers and the South Korean satellite at five hundred and seventy kilometers. This launch represents SpaceX's one hundred thirty first Falcon mission of the year, marking an incredibly busy period for the company.
It's also their second dedicated ride share mission to a mid inclination orbit, specifically chosen to keep these satellites positioned over more populated areas of our planet rather than following the polar orbits typically used for Earth observation missions. After deployment, these satellites will begin their diverse missions from Earth imaging and weather monitoring, to testing new space technologies and providing
communications serve vises. Together, they represent a remarkable snapshot of the increasing variety and capability of small satellites being launched today.
¶ Mars is experiencing a spectacular spring awakening that's far more dramatic than Earth
Ever thought about the concept of seasons on other planets. While we're celebrating the approaching new year here on Earth, Mars has already completed its journey around the Sun, marking the end of its six hundred and eighty seven Earth Day year this past November. But unlike Earth's northern winter wonderland or southern hemispheres summer, Mars is experiencing a spectacular spring awakening that's far more dramatic than anything we see
here at home. Instead of gentle snow melt and trickling streams, Mars puts on an explosive show. The red planet's thin atmosphere means ice doesn't gradually melt into liquid. It transforms directly into gas in a process called sublimation. This creates some truly remarkable phenomena that NASA's Mars Reconnaissance orbiter has been tracking for nearly two decades. One of the most
dramatic events are the frost avalanche. Imagine witnessing a massive chunk of carbon dioxide frost wider than a house, breaking free and tumbling down Martian cliffs. The orbiter's high resolution cameras actually captured one of these spectacular events, showing a sixty six foot wide block of dry ice in freefall.
But that's just the beginning. As spring temperatures rise, pressurized carbon dioxide gas builds up beneath the surface ice until it literally explodes upward, creating powerful geysers that blast dark fans of sand and dust into the Martian sky. These explosive jets leave behind distinctive patterns in the soil that when viewed from orbit, look remarkably like giant spider legs etched into the surface. Perhaps most impressive is the planet's northern ice cap, a structure as large as Texas that
features enormous spiral troughs carved by powerful seasonal winds. Some of these troughs stretch as long as California, dwarfing similar features found in Antarctica. As the spring thaw begins, these channels become super highways for warm wind gusts that gain speed and heat as they race downhill. These same winds
are constantly reshaping Mars's landscape, particularly its sand dunes. During winter, carbon dioxide frost locks these dunes in place, but once spring arrives and the frost sublimates, they begin their slow migration across the Martian surface. It's a seasonal dance that's been ongoing for eons, sculpting and reshaping the face of
our neighboring planet. What makes this even more fascinating is that each Martian spring is unique, with subtle variations in temperature and timing creating different patterns of sublimation and surface activity. It's a reminder that Mars, despite its apparent desolation, is a dynamically changing world with its own distinctive seasonal rhythm. Now,
¶ New research challenges belief that dark energy is behind accelerating universe
let's dive into a topic that's been puzzling scientists for decades dark energy. For years, the term dark energy has been used to describe the mysterious force believed to drive the accelerated expansion of our universe. It's thought to make up about two thirds of the universe's total mass energy content. However, recent research from the University of Canterbury in christ Church,
New Zealand challenges this long standing concept. Led by Professor David Wiltshire, the team analyzed supernova light curves with enhanced precision. Their findings suggest that the universe's expansion isn't uniform, but rather lumpy, varying in different regions. This challenges the conventional lambda cold dark matter model, which relies on dark energy to explain the universe's accelerating expansion. The researchers propose an alternative,
the timescape model. This model considers that gravity affects time, causing clocks and regions with different gravitational strengths to tick at varying rates. For instance, a clock in the emptiness of space would run faster than one within a galaxy. These time differences could lead to the perception of an
accelerating universe without invoking dark energy. Professor Wiltshire explains our findings show that we do not need dark energy to explain why the universe appears to expand at an accelerating rate. He suggests that what we've been interpreting as dark energy might actually be variations in the kinetic energy of expansion
influenced by the universe's lumpy structure. This perspective also offers insights into the Hubble tension, the discrepancy between the current expansion rate of the universe and predictions based on early universe observations. By accounting for regional variations and expansion, the Timescape model could bridge this gap. While these findings are compelling,
they don't entirely dismiss the existence of dark energy. Instead, they encourage a reevaluation of our cosmological models and highlight the importance of considering the universe's complex structure in our calculations. As we continue to explore these cosmic mysteries, each discovery brings us closer to understanding the true nature of our universe. It's a thrilling reminder of how much there is yet to learn. Finally, today, let's revisit a classic debate, what
¶ Scientists have long debated whether volcanic eruptions or a catastrophic meteorite caused extinction
really caused the extinction of the dinosaurs. For decades, scientists have pondered whether massive volcanic eruptions or a catastrophic meteorite impact led to the dinosaur's demise. Recent research from utrect University and the University of Manchester sheds new light on this mystery. The study focuses on the Deccan Traps in India, where colossal volcanic eruptions occurred around sixty six million years ago. These eruptions released vast amounts of sulfur and carbon dioxide,
potentially altering the global climate. By analyzing fossil molecules from ancient peats in the United States, scientists reconstructed air temperatures during this period. They discovered that a significant volcanic eruption about thirty thousand years before the meteorite impact caused a global cooling of approximately five degrees celsius. However, temperatures rebounded twenty thousand years before the impact, likely due to volcanic
CO two emissions. This timeline suggests that while these volcanic events had drastic consequences, for life on Earth. Their climatic effects had dissipated thousands of years before the chi Salub meteorite struck. Therefore, the meteorite impact remains the primary culprit behind the mass extinction event that wiped out the dinosaurs.
Lauren O'Connor of Utrecht University notes these volcanic eruptions and associated CO two and sulfur releases would have had drastic consequences for life on Earth, but these events occurred millennia before the meteorite impact and probably played only a small part in the extinction of dinosaurs. This research underscores the catastrophic impact of the Chisalub meteorite, which unleashed wildfires, earthquakes, tsunamis, and an impact winter that blocked sunlight and devastated ecosystems.
Understanding these events helps us piece together Earth's complex history and the factors that have shaped life on our planet. It's a fascinating reminder of the dynamic forces at play over geological timescales, and that wraps up today's fascinating journey through space, from Earth orbiting satellite breakups to SpaceX's ambitious ride share mission and the dramatic spring spectacle unfolding on Mars.
¶ This episode of Astronomy Daily explores the wonders of space
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