Welcome to Astronomy Daily, your go to source for the most recent space and astronomy news. I'm Anna and I'll be your host for today's cosmic Journey. We've got an action packed episode lined up for you, covering a wide range of fascinating topics from our Solar System and beyond. We'll start by exploring the upcoming Drakeened meteor shower, known for its potential to produce spectacular displays in the night sky. Then we'll zoom out to the International Space Station for
an update on crew changes and mission developments. From there, we'll venture even further into space, discussing new research on the effects of long term space travel on the human brain, crucial information for future Mars missions. We'll also delve into some cutting edge astronomy, looking at how the James Web Space Telescope is helping to solve one of cosmology's biggest puzzles. Plus, we'll talk about Earth's temporary new mini moon and check
in on the Curiosity Rovers ongoing mission on Mars. So buckle up and get ready for an exciting tour of the latest astronomical discoveries and space exploration news. Get ready for a celestial spectacle stargazers. The Drakenid meteor Shower is set to light up our night skies in the coming days. This annual event is famous for its potential to produce breathtaking meteor storms, and this year's show promises to be
a treat for skywatchers. The Drakenids are expected to peak on October seventh, with the best viewing time right after nightfall. Unlike other meteor showers that require you to stay up late, the Drakenids are considerate enough to perform their cosmic dance in the early evening hours. These meteors get their name from the constellation Draco the Dragon, as they appear to radiate from that point in the sky. But don't worry about finding Draco. Meteors will be visible across the night sky.
The Drakenids are caused by debris left behind by Comet twenty one p slashed Giacobini's inner. As Earth passes through this trail of cosmic dust, we're treated to a beautiful light show as the particles burn up in our atmosphere. While most years see a modest display of around ten metiears per hour, the Drakenids are known for occasional outbursts in nineteen thirty three and nineteen forty six, observers witness
thousands of meteors per hour a true meteor storm. To maximize your chances of seeing the Drakenids, find a dark location away from city lights. No special equipment is needed, just your eyes and a comfortable place to relax. Patience is key, as it can take up to thirty minutes for your eyes to fully adjust to the darkness. While this year's shower is expected to be relatively mild, astronomers
are already looking ahead to twenty twenty five. That's when come at twenty one, piece slash Jacobeani's inner will make its closest approach to Earth, potentially setting the stage for another spectacular outburst. So mark your calendars, bundle up, and prepare for a cosmic light show courtesy of the Drachenids. It's a reminder of the wonders that await us when we take the time to look up and marvel at the night sky. Next up and update from the ISS.
In a significant development at the International Space Station, astronauts Butch Wilmore and Sunny Williams are gearing up for their return journey aboard the SpaceX Crew nine Dragon in spacecraft. This marks a notable transition, as the duo initially arrived at the station via the Boeing Starliner. The astronauts have been busy integrating with the newly arrived Crew nine spacecraft.
They've completed crucial tasks such as trying on their SpaceX Intravehicular Activity space suits and conducting pressurized suit leak checks. The team also tested the suit's audio configurations and performed seat fit checks inside the Dragon spacecraft. These preparations are essential as Wilmore and Williams will now use the Crew
nine Dragon as their primary and emergency return vehicle. They're set to remain on the space station as part of Expedition seventy two, continuing their science mission until February twenty twenty five. Joining Wilmore and Williams for the return journey will be NASA astronaut Nick Haig and Roscosmos cosmonaut Alexander Gorbunov,
who arrived at the station on September twenty ninth. Meanwhile, the Crew eight spacecraft, which had been serving as the emergency return vehicle for Wilmore and Williams, is preparing for its own departure. The temporary seats inside Crew eight will be dismantled before it leaves the station. Crew eight, consisting of NASA astronauts Matthew Dominic, Michael Barrett, and Jeanette Epps, along with ros Cosmos cosmonaut Alexander Gribenkin, is scheduled to
return to Earth in about a week, weather permitting. This crew rotation highlights the ongoing collaboration between NASA and commercial partners in maintaining a continuous human presence in low Earth orbit, furthering our understanding of space and paving the way for future exploration. As we look towards future Mars missions, scientists are uncovering some concerning effects that deep space travel might
have on the human brain. Recent studies on mice have shed light on the long lasting impact of galactic cosmic radiation on cognitive abilities. When we venture beyond Earth's protective magnetic field, astronauts are exposed to high energy particles from sources like supernova explosions. This galactic cosmic radiation can penetrate spacecraft's shielding, posing a real threat to human health during itsx extended missions. In a groundbreaking experiment, researchers simulated the
space radiation environment. Using a specialized ion beam. They exposed both male and female mice to radiation levels similar to what astronauts would experience on a deep space mission. The results were eye opening. The radiation impaired numerous central nervous system functions in the mice, including memory pattern separation, anxiety levels, vigilance, social behavior, and motor controls. Surprisingly, female mice seemed to be more affected than males. But it's not all doom
and gloom. The study also revealed a potential protective measure. Mice that were given antioxidant and anti inflammatory drugs showed less severe cognitive effects from the radiation exposure. These findings are crucial for planning long duration space missions, especially to Mars. As we prepare to send humans farther into space than ever before, Understanding and mitigating these risks will be essential for the health and safety of our astronauts. Next, the
space telescope that just keeps on giving. The James Webb Space Telescope has once again wowed astronomers with a stunning image, this time capturing a distant supernova in a galaxy that appears stretched like warm taffy. But this golden smear isn't just visually striking, It could help solve one of the biggest mysteries in cosmology. The supernova, nicknamed Supernova Hope, exploded when the universe was just three point five billion years old.
What makes it special is that it's a type IA supernova, which astronomers use as standard candles to measure cosmic distances. This ties into a major problem in cosmology called the Hubble tension. Essentially, scientists can't agree on the exact rate at which the universe is expanding. Measurements from the early universe don't match up with those from the more recent universe. Supernova Hope could provide a bridge between these two methods.
By observing how its light is bent by the gravitational lensing effect of a galaxy cluster, astronomers can calculate a new value for the Hubble constant. Interestingly, then, incial results from Supernova Hope seem to align more closely with measurements from the local universe. While this is just one data point, it gives astronomers hope that the James Web Telescope could help resolve this cosmic conundrum. As we continue to peer deeper into the universe. Each discovery brings us closer to
understanding the fundamental nature of our cosmos. The Hubble tension may soon become a thing of the past thanks to the incredible capabilities of our newest space observatory. Now, let's answer a question being asked around the globe at the moment. Earth has recently gained a temporary celestial companion, a small
asteroid that's been dubbed our new mini moon. This cosmic hitchhiker, officially named twenty twenty four PT five, was captured by Earth's gravity on September twenty ninth, and is expected to stick around for about two months before resuming its solo journey around the Sun. Now, before you get too excited about spotting a second moon in the night sky, I should mention that this mini moon is incredibly small. At just thirty three feet wide, where about the length of
a school bus. It's roughly three hundred thousand times smaller than our familiar Moon. That means it's far too tiny to be seen with the naked eye or even with most amateur telescopes. This space rock is actually classed as a near Earth asteroid, likely originating from the Arjuna asteroid belt. It's predicted to orbit our planet for fifty seven days before breaking free on November twenty fifth. But don't worry
if you miss it this time. Astronomers say it'll make another close pass by Earth in January twenty twenty five and again in twenty fifty five. So while we won't be able to see our temporary mini moon, it's a fascinating reminder of the dynamic nature of our cosmic neighborhood and Earth's gravitational influence. Finally, today, how about an update from Mars. NASA's Curiosity rover has been trekking across the Martian landscape for over a decade now, and its wheels
are really starting to show their age. Recent images from the rovers Mars hand Lands Imager reveal significant wear and tear, with dense punctures and even major gashes in the aluminum wheels. But don't worry, spaces, Curiosity is still rolling along just fine. The rover's team has been monitoring this damage since twenty thirteen and has taken steps to prolonged wheel life, like
steering Curiosity towards smoother terrain when possible. They've even uploaded new software to adjust wheel speeds and reduce pressure from rocks. While wheel damage continues to occur. It's not all bad news. NASA has used this information to improve the design of newer Mars rovers. The Perseverance Rover, for instance, now sports more durable wheels thanks to lessons learned from Curiosity's journey.
As Curiosity continues its mission to search for signs of ancient microbial life on Mars, its battle worn wheels serve as a testament to the harsh realities of planetary exploration, but they also showcase the ingenuity of NASA engineers in keeping this intrepid explorer rolling across the Red planet. And that wraps up today's episode of Astronomy Daily. I hope you've enjoyed our cosmic journey through the latest space and
astronomy news. From the upcoming Drakeened meteor shower to the potential resolution of the Hubble tension, We've covered quite a bit of ground, or should I say space. Remember, if you want to stay up to date with all things astronomy, be sure to visit our website at Astronomy Daily dot io. There you can sign up for our free daily newsletter catch up on all the latest Space News with our constantly updating news feed and listen to all our back episodes,
and don't forget to follow us on social media. You can find us as Astro Daily Pod on Facebook, x YouTube and TikTok. We love interacting with our listeners and sharing even more celestial content. This is Anna thanking you for tuning into Astronomy Daily. Until next time, keep your eyes on the skies and your mind in the stars. Keep looking up today, Star Star. The story is the tol
