Space Nuts

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Prepare for liftoff with Andrew Dunkley and Professor Fred Watson on this thrilling installment of Space Nuts, as they recount Fred's astronomical escapades across the US, complete with eclipses, rocket launches, and the unexpected excitement of space junk crashing through a Floridian roof. Fred's journey is a celestial enthusiast's dream, featuring a spectacular total solar eclipse in Texas, a snowy adventure in Canada, and a close encounter with the northern lights.
But the cosmic wonders don't stop there. The duo dives into the discovery of the most massive stellar black hole yet found in our galaxy, a behemoth 33 times the mass of our sun, a mere 2,000 light-years away. This revelation challenges our understanding of stellar evolution and the formation of black holes, leaving astronomers pondering the mysteries of our cosmic backyard.
From the awe-inspiring vastness of black holes to the personal tales of stargazing and aurora hunting, this episode offers a universe of discovery. Don't miss out on the latest astronomical insights and Fred's interstellar journey that's sure to leave you starstruck.
Remember to subscribe and follow Space Nuts for more deep space tales and intergalactic insights. Until next time, keep your eyes on the cosmos and your mind open to the endless possibilities of the universe.
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 Episode Chapters
(00:00) Professor Fred Watson returns from trip to North America fully jet lagged
(02:40) Fred Watson uses his iPhone to take photographs of aurora in Canada
(06:32) Fred Watson went to Houston for the total solar eclipse in 1970
(11:27) Andrew Gannadar watched SpaceX Falcon nine rocket launch from Orlando hotel
(15:34) A gentleman in Florida had something come through his roof
(17:51) Talking about the ISS brings back memories of our 1960s trip to Kennedy
(18:33) Life size replica of Hubble space telescope at Kennedy Space Centre
(22:52) Most massive stellar black hole yet found in our galaxy
(24:27) Scientists detect massive black hole in sky using Gaia mission
(30:29) Andrew Dunkley welcomes Fred Watson back to the Space Nuts podcast

In this episode of Space Nuts Q&A, Andrew and Fred answer questions about supernovae, 3D printed telescopes, the Voyager space probe missions, and the possibility of using particle collision in space. They discuss how supernovae explosions do not blow away the gravitational field and how neutron stars develop as a result. They also provide insights into 3D printed telescopes and suggest that beginners may find it easier to start with an off-the-shelf telescope. They talk about the trajectory and potential fate of the Voyager spacecraft and discuss the challenges of building particle colliders in space. Overall, they provide informative and engaging answers to the audience's questions. Takeaways   Supernovae explosions do not blow away the gravitational field because gravity is associated with mass. The explosion only affects the outer envelope of the star, while the core collapses to become a neutron star. 3D printed telescopes can be a good option for beginners, but it may be easier to start with an off-the-shelf telescope. 3D printed telescopes require more components and may involve more fiddling around. The Voyager spacecraft will continue on their current trajectories and are not expected to pass near any star systems within human lifetimes. However, if they were near enough to Earth, they could be detectable by extraterrestrial intelligence. Building particle colliders in space is challenging due to the need for precise guidance and the high velocities of the particles. It may be more cost-effective and realistic to continue building particle colliders on Earth. The fate of the Voyager spacecraft is uncertain, but they could potentially be captured into orbit around another star or collide with other objects. They will likely outlast our species and continue on their trajectories away from the solar system. Chapters   00:00 Volcanic Features and Pyroclastic Deposits 00:28 Q&A: Supernovas and Neutron Stars 07:03 Q&A: 3D Printable Telescopes 11:07 Q&A: Voyager Space Probe Missions 15:12 Q&A: Particle Collisions and Voyager's Fate

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Embark on a cosmic odyssey with Andrew Dunkley and Professor Fred Watson as they unravel the mysteries of the universe's expansion and unearth a colossal Martian secret in this episode of Space Nuts. Dive into the perplexing debate over the universe's expansion rate, as new findings from the James Webb Space Telescope reignite the Hubble tension. With precision cosmology at our fingertips, discover why the universe's growth spurs more questions than answers, leaving us to ponder the potential for undiscovered physics that could reshape our cosmic understanding.
Then, join the expedition to Mars where a hidden giant lay dormant until now. The discovery of a monstrous volcano, nestled in the labyrinthine Noctis Labyrinthus, has scientists buzzing with excitement. Towering over 9,000 meters with a footprint spanning 450 kilometers, this Martian marvel could hold vital clues to the planet's fiery past and icy secrets beneath its surface. As explorers eye this volcanic behemoth as a future landing site, the prospects of unlocking Mars' ancient mysteries have never been more alluring.
From the enigmatic expansion of the cosmos to the volcanic vistas of Mars, this episode is a treasure trove for space enthusiasts and cosmic detectives. Tune in and let your imagination soar to new interstellar heights with Space Nuts. Remember to subscribe and follow us for more celestial tales and astronomical adventures. Until our next galactic gathering, keep your eyes to the skies and your heart in the stars.
🚀 Episode Chapters
(00:00) Andrew Dunkley introduces the cosmic conundrums
(05:12) The Hubble tension and the universe's expansion speed
(11:34) Professor Fred Watson discusses the James Webb Space Telescope's findings
(18:20) Unveiling the newly discovered Martian volcano
(24:45) The potential of Mars' glacial ice and future explorations
(28:57) Wrapping up with a look ahead to Space Nuts Q&A
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Strap in for an astronomical journey as Andrew Dunkley and Professor Fred Watson return to answer your burning cosmic questions in this enlightening episode of Space Nuts. Beam up to the cosmos as we tackle the challenges of snapping photos at supersonic speeds with the Breakthrough Starshot project. Viano from Florence brings into focus the hurdles of capturing clear images of distant planets when traveling at a third the speed of light. Could the blur of speed and the distortion of space-time leave us with just a glimpse of Proxima Centauri's secrets?
Next, we delve into the cosmic dance of celestial bodies. Brady from Florida, with a front-row seat to rocket launches, ponders the possibility of a moon having its own moon. Could a satellite's satellite exist, or are the gravitational tugs within our solar system too much for such a delicate balance? Professor Watson explains the intricate gravitational ballet that determines these cosmic relationships.
Then, Scott from Oregon opens a window into the fascinating world of triple star systems with a question about HD 110067. How can stars so far apart still be considered gravitationally bound? Discover the cosmic ties that bind these stellar companions across vast distances.
And for a bonus, we tackle an impromptu query from Dean about the Hubble Space Telescope's remarkable ability to maintain steady images while orbiting Earth. The secret lies in the dance of gyroscopes, but how long can this celestial photography session last?
From interstellar photography to the gravitational waltz of moons and stars, this episode is packed with insights into the mechanics of our universe. Remember to send us your space-related questions, and join us on this voyage of cosmic discovery. Subscribe to Space Nuts on your favorite podcast platform, and until our next stellar encounter, keep gazing at the stars and wondering about the wonders above. 
📋 Episode Chapters
(00:00) Andrew Dunkley welcomes your questions for Space Nuts Q and A
(01:52) Riano from Florence in Italy has two questions for us
(04:13) Andrew: Breakthrough project aims to send micro spacecraft to Alpha Centauri
(10:06) I talked about pluto about 100 times, I think
(10:21) Viana raises doubts about whether taking pictures from space is feasible
(12:40) Vienna's question was about the orbits of planets
(14:06) Andrew Dunkley with professor Fred Watson on space nuts podcast
(18:05) Andrew Dunkley: Scott from Oregon questions distance of triple star system
(23:57) Fred Watson says Hubble's lifetime will eventually be limited because gyroscopes failed



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Prepare to traverse the Martian landscapes and cosmic frontiers in this intriguing episode of Space Nuts, where Andrew Dunkley and Professor Fred Watson uncover the secrets of the Red Planet and the tiniest worlds beyond our solar system. In this episode, we're dusting off the Martian surface to reveal new evidence that hints at the planet's potential past life. A recent study from Japan brings to light ancient atmospheric conditions that could have fostered the formation of life-essential molecules. Dive into the science of how formaldehyde, a chemical you wouldn't typically associate with life, may have been a critical ingredient in Mars' primordial soup.
Then, we shrink our focus to the smallest exoplanet ever discovered, Kepler 37b. Is it a planet, an asteroid, or something in between? This celestial object, roughly the size of our Moon, challenges our definitions and understanding of planetary bodies. The team discusses the criteria that separate planets from dwarf planets and the exciting prospect of future discoveries with the upcoming Nancy Grace Roman Space Telescope.
From Martian mysteries to minuscule exoplanets, this episode is a cosmic cocktail of astrophysical wonder and discovery. So, fasten your seatbelts, and let's embark on another Space Nuts adventure. Don't forget to hit the subscribe button on YouTube, and join us as we continue to explore the vast expanse of our universe. For more Space Nuts content, visit our website or tune in for the next episode. Until then, keep your eyes on the skies and your mind open to the endless possibilities of space.
📋 Episode Chapters
(00:00) This episode of Space nuts features Professor Fred Watson, astronomer at large
(01:33) Fred Koteman has just returned from a trip to Egypt
(06:58) There were issues with language and translation on our Egypt trip
(08:43) New research suggests ancient Mars could have harboured life
(15:56) Professor Fred Watson says Kepler 37 b is the smallest exoplanet ever found
(26:57) Fred Watson: Kepler 37 b is the smallest exoplanet thus found



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Your questions....our answers!
Buckle up, space cadets! Join Andrew Dunkley and Professor Fred Watson as they navigate through a new constellation of cosmic queries in this episode of Space Nuts. In this interstellar Q&A session, we're launching straight into the terraforming terrain, pondering massive megastructures, and the cooling conundrum of Venus. Dan from California, or "Caladan," sparks a stellar discussion on whether a colossal solar panel at Venus's L1 point could reverse its runaway greenhouse effect.
Next, we're rocketing over to Dan in Brisbane, who's curious about the protostar L1527 and its captivating James Webb Space Telescope image. Our hosts explore the fate of material ejected during the formation of our solar system and the forces exerted by our sun's solar wind and photonic pressure. Could the remnants of our solar system's early cloud still linger in the cosmic winds?
Then, we're warping into the realms of science fiction with Star's question: Does scientific accuracy enhance the enjoyment of sci-fi, or is imagination the final frontier? Andrew shares his favorites, from the plausible "The Martian" to the fantastical "Dune," while Fred reflects on the genre's influence on his scientific path.
Lastly, young Ted from the UK, with some help from his father Joe, wonders why the moon is sometimes visible during the day and what that means for the other side of the Earth. Prepare for a lunar lesson that spans the globe!
So, ignite your curiosity engines and prepare for a journey through the mysteries of space and science fiction. Remember to send us your astronomical questions for a chance to be featured in our cosmic conversations. Subscribe to Space Nuts on your preferred podcast platform and join us as we continue our voyage through the vastness of the universe. Until next time, keep your telescopes trained and your dreams space-bound!
(00:00) Andrew dunkley: We've got a few questions about terraforming
(01:29) Recent data suggests Titan probably not as life worthy as we once thought
(04:00) How long would it take Venus to cool down and would that eventually lead to
(08:45) Fred: Dan from Brisbane wants to know about protostar formation
(15:23) We've got a question from star. Um, so we're talking about a proto star now
(15:51) When it comes to Sci-Fi does your enjoyment depend on how accurate it is
(21:59) Why can I sometimes see the moon during the day in the UK
(24:18) Andrew Dunkley: Thank you for joining us on Space Nuts

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Prepare for a stellar foray into the frontiers of astrophysics with your seasoned spacefarers, Andrew Dunkley and Professor Fred Watson, in this riveting episode of Space Nuts. Today, we're delving into the realm of nuclear alchemy, where scientists have replicated the cosmic crucible of colliding neutron stars right here on Earth. Andrew and Fred unpack the groundbreaking synthesis of new isotopes, previously the exclusive handiwork of the universe's most cataclysmic events. Discover how a platinum beam and a carbon target in the lab have opened a new window into the cosmic generation of elements like gold and silver, and what this means for our understanding of matter's deepest secrets.
Then, brace for a journey to the edges of space-time, as we shed light on the discovery of the fastest-growing and brightest quasar ever observed. This celestial behemoth, with a black hole 17 billion times the mass of our Sun, is not only a record-breaker but a window into the universe's youthful past, some 12 billion years ago. With a luminosity of 500 trillion suns and an event horizon stretching seven light years, this quasar is a true cosmic titan. Fred and Andrew explore the implications of such discoveries and ponder the evolution of these quasars, which now lie dormant in the current epoch of the universe.
And lest we forget, the episode is graced with a surprise guest—a goanna in Fred's backyard, reminding us of the enduring connection between Earth's ancient inhabitants and the stars that light our skies.
So, join us on this intergalactic voyage of discovery, where the wonders never cease, and the universe's secrets are yours to uncover. For the full Space Nuts experience and to keep your cosmic curiosity fueled, subscribe on your favorite podcast platform. And remember, your questions and fascination are the stars that guide our Space Nuts odyssey!
📋 Episode Chapters
(00:00) Andrew dunkley: Coming up on this episode of Space nuts is some science
(01:08) Professor Fred Watson says goannas can do a lot of damage
(02:32) Scientists have synthesised isotopes created by colliding neutron stars
(12:20) Professor Andrew Dunkley says neutron star collisions may have created some rare isotopes
(16:25) Fred says Australian astronomers have found the brightest quasar and possibly a black hole
(23:16) Quasars are extinct at this point in the age of the universe
(28:25) Andrew Dunkley: Thanks to Huw not in studio today when AWOL



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Embark on another cosmic journey with your favorite celestial explorers, Andrew Dunkley and Professor Fred Watson, in this insightful Q&A episode of Space Nuts. This time, the mysteries of the outer solar system take center stage as we delve into the elusive Planet Nine. Duncan from Weymouth, Dorset, ponders whether a rogue planet might have once danced through our neighborhood, stirring the orbits of distant objects before continuing on its cosmic path. Could this explain the peculiar movements without the need for a ninth planet?
Next, Rusty revisits his solar pergola concept, but with a twist. Imagine a constellation of satellites, each casting a penumbral shadow upon Earth, designed to reduce solar exposure by a subtle 2%. With advances in technology, could this be the geoengineering marvel we deploy within a decade to temper our planet's fever?
David from Seguin, Texas, presents us with a tantalizing "what if": If you could step foot on any exoplanet, which would it be? Andrew and Fred share their interstellar real estate preferences, revealing the allure of Earth-like worlds and the practical considerations of cosmic travel.
Lastly, we're tackling some homework from our inquisitive listeners. Wayne's curiosity about supernovas and gravitational waves leads to a discussion on cosmic symmetry, while Lee's question about InSight's ability to triangulate Marsquake epicenters unveils the intricate modeling of the Red Planet's inner structure.
So, fasten your seatbelts for a voyage through the wonders of space science, where questions spark discovery and the universe's secrets are just waiting to be unlocked. Don't forget, your questions might just be the next puzzle piece in our grand cosmic understanding, so keep them coming!
For more interstellar intrigue and to continue feeding your space curiosity, subscribe to Space Nuts on your preferred podcast platform. Until our next celestial navigation, remember to look up and let your imagination soar through the infinite expanse!
For more Space Nuts visit www.spacenuts.io  or our HQ at www.bitesz.com.

(00:00) Andrew Dunkley: This is the separated second half of Space Nuts q&a
(02:23) Our first question comes from a regular Duncan. Just wondering about planet nine episode
(03:47) Andrew says rogue planet could be caused by passing star or other interference
(08:10) The solar system is very difficult to understand without planet nine, says Mike Brown
(10:26) Rusty suggests solar pergola could help solve climate crisis
(17:03) Plus it increases our classification as a. Civilization in doing so
(17:29) What if y'all could step foot on any planet outside our solar system
(21:34) Whether or not a supernova can cause a gravitational wave was asked recently
(26:36) Professor Fred Watson and Huw in the studio for Space Nuts podcast

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Embark on a cosmic exploration with your favorite interstellar enthusiasts, Andrew Dunkley and Professor Fred Watson, in this latest episode of Space Nuts. Today's celestial journey takes us to Saturn's moon, Titan, where new research casts a shadow on the prospects of finding life in its sub-ice oceans. Despite the rich hydrocarbons on Titan's surface, the study by astrobiologist Catherine Neish suggests that the transfer of essential organic materials to the ocean below is far too slow to foster life as we know it. The implications of this finding could extend to other icy moons, potentially dampening hopes for habitability across our solar system.
Then, we pivot to Earthly matters as we join the United Nations' cosmic conversation. The UN has finally agreed to tackle the burgeoning issue of satellite constellations cluttering our orbit. With over 8,000 satellites circling our planet and plans for many more, astronomers are increasingly concerned about light pollution and radio interference. But can the UN's agenda lead to effective regulation, or will it be a case of too little, too late in the fast-paced space industry?
From the icy depths of Titan to the crowded skies of Earth, this episode of Space Nuts is a testament to the ever-evolving quest for knowledge and the challenges of preserving our cosmic frontiers. So, sit back, tune in, and let your imagination take flight as we unravel these astronomical enigmas.
For the full spectrum of space-time adventures and to keep your astronomical curiosity quenched, subscribe to Space Nuts on your preferred podcast platform. And don't forget to tune in to our Space Nuts Q&A episodes every Monday for more cosmic queries and celestial insights. Until next time, keep your eyes to the stars and your passion for discovery burning bright!
📋 Episode Chapters
(00:00) Professor Fred Watson joins us on this episode of Space Nuts
(02:02) New study suggests Titan's subsurface ocean could be right for potential life
(10:35) There have been speculations that Titan could have a different basis of life
(13:47) Andrew Dunkley says there will be methane and ethane rainbows on Titan
(15:32) United nations to meet later this year to discuss concentrations of satellites
(25:38) Space company SpaceX to deorbit 100 older starlink satellites to reduce satellite interference

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Prepare to have your curiosity catapulted to cosmic proportions in this enthralling Q&A edition of Space Nuts, where our intrepid hosts Andrew Dunkley and Professor Fred Watson delve into the gravitational enigmas and hypotheticals of the universe.
Firstly, Bo from Melbourne brings us a mind-bending question about the Big Bang and gravitational waves. Could the universe's colossal birth have sent ripples through the fabric of spacetime? Fred unpacks the complexities of detecting such ancient cosmic echoes and explores the tantalizing links to the cosmic microwave background radiation.
Next, Rennie from sunny West Hills, California, presents a tantalizing 'what if' scenario: What if the Sun never died? Would Earth eventually succumb to its own demise? Our dynamic duo contemplates the slow dance of celestial mechanics, the potential for human adaptability, and the intriguing future of a planet with a 42-day-long day.
Lastly, Daniel from Adelaide ponders a cosmic conundrum where time and dark energy might intertwine. As he questions the nature of the universe's accelerated expansion and the role of dark energy, Fred provides a nuanced response that sifts through the layers of cosmological understanding.
With each query, Andrew and Fred traverse the vastness of space, time, and possibility, offering insights that will leave you pondering long after the episode ends. So join us on this intergalactic expedition, and don't forget to submit your own questions to Space Nuts for a chance to be featured in future Q&A escapades!
For more space-time adventures and to satisfy your astronomical curiosity, subscribe to Space Nuts on your preferred podcast platform. Until we chart our next course through the cosmos, keep your eyes to the skies and your wonder boundless!
Episode Chapters:
(00:00) Welcome to Space Nuts Q&A with Andrew Dunkley and Professor Fred Watson
((01:08) Did the big Bang produce gravitational waves or echoes
(08:47) Would the earth eventually erode, decay and die on its own
(13:27) What if time and dark energy were actually the same thing
(14:35) Daniel Winfred: Is time and dark energy the same thing
(18:07) How to submit your questions and wrap-up

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Strap in for a fiery cosmic conundrum and a celestial mystery spanning centuries in this latest episode of Space Nuts! Host Andrew Dunkley and the ever-knowledgeable Professor Fred Watson ignite a discussion on the dangers of fire in space. With a look back at some of history's most harrowing space blazes, they delve into NASA's sapphire experiments, which test the flammability of spacecraft materials to enhance future mission safety. From the tragic Apollo 1 disaster to a perilous inferno aboard the Mir space station, learn how these pivotal events are shaping the protocols that keep astronauts safe among the stars.
Then, shift your gaze to a distant starlight drama as our Space Nuts duo investigates a puzzling stellar eclipse lasting 500 days. Could the dimming of a young, sun-like star be the aftermath of a colossal planetary collision? With the help of archival data from NASA's WISE mission, scientists have pieced together a story of cosmic destruction and creation. Discover how two exoplanets, each several times the mass of Earth, may have smashed together, leaving behind a glowing cloud of debris and the potential birth of new moons or even more planets.
This episode is a testament to the relentless pursuit of knowledge and the ingenious methods astronomers use to unravel the secrets of the universe, even from 1850 light-years away. So, prepare for a journey that explores both the immediate concerns within our spacecraft and the cataclysmic events of distant solar systems.
For a deeper dive into the universe's most burning questions and enigmatic events, subscribe to Space Nuts on your favorite podcast platform. And remember, the Q&A session now gets its spotlight in a dedicated episode every Monday, ensuring you get your full dose of cosmic curiosity. Until next time, keep your eyes to the cosmos and your mind open to the wonders it holds!
Episode Chapters
(00:00) Welcome to Space Nuts: Astronomy and Space Science
(02:22) Fires in space - A look at NASA's sapphire experiments
(12:45) The 500-day stellar eclipse and planetary collision aftermath
(24:10) The future of space safety and celestial observations
(29:55) Closing thoughts and the new Space Nuts Q&A episodes
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Prepare to embark on an interstellar Q&A adventure in this enlightening episode of Space Nuts, where your cosmic guides, Andrew Dunkley and Professor Fred Watson, tackle the perplexing questions from the far reaches of our listeners' imaginations. 
First, we join Ash from Brisbane as he ponders the enigmatic mechanics of spacecraft reentry. Using Apollo 13's nail-biting descent as a springboard, Fred demystifies the concept of 'bouncing off the atmosphere' and reveals the delicate balance between gravitational pull and atmospheric drag. 
Next, Darryl from South Australia challenges us with the icy extremes of absolute zero. Why does this ultimate chill exist, and is there a corresponding 'absolute hot'? Fred delves into the physics of temperature and the motion of atoms, shedding light on the limits of the thermal universe and the possibility of an 'absolute heavy' or 'absolute light'. 
Finally, Alex from London, by way of Indiana, brings us face-to-face with the enigma of dark energy. Is this mysterious force the antithesis of gravity itself? Our hosts explore the repulsive power that's pushing galaxies apart and the ongoing quest to unravel the secrets of the cosmos.
With each question, Andrew and Fred illuminate the wonders and oddities of the universe, blending humor with profound scientific insight. So, join the Space Nuts community, submit your own cosmic queries, and keep the spirit of discovery alive!
For more space-time odysseys and answers to your astronomical inquiries, subscribe to Space Nuts on your favorite podcast platform. Until we venture again into the vast unknown, keep your gaze to the stars and your curiosity alight!
Episode Chapters
(00:00) Welcome to Space Nuts: Astronomy and Space Science
(02:10) Ash from Brisbane questions the 'bouncing off the atmosphere' during spacecraft reentry
(10:45) Darryl from South Australia inquires about absolute zero and the limits of temperature
(17:30) Alex from London asks if dark energy could be considered antigravity
(25:15) Closing remarks and how to submit your questions to Space Nuts

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Embark on a celestial detective story in this latest episode of Space Nuts, as your guides through the galaxy, Andrew Dunkley and Professor Fred Watson, unravel the curious case of Venus's quasi-moon. The tale begins with an asteroid that's not quite what it seems, orbiting Venus in a way that defies expectations. The mystery deepens with the asteroid's peculiar name, which comes with its own humorous backstory involving a podcast, a bedroom wall poster, and a case of mistaken identity.
Then, shift gears and join the hunt for the universe's elusive sulfur. Why does this common element appear to be hiding in plain sight? The answer lies in the heart of the Milky Way, where a groundbreaking study using the Very Large Telescope has finally solved a long-standing astronomical puzzle. Discover how improved data quality has brought the cosmic abundance of sulfur into clear view, and why planetary nebulae, the final breaths of sun-like stars, are key to this revelation.
With Fred on the mend from a pesky tick bite, the dynamic duo delves into the intricacies of celestial mechanics, the naming conventions of space objects, and the importance of sulfur in both the cosmos and our everyday lives. Don't miss this episode of Space Nuts, where the wonders of the universe are made accessible, the seemingly mundane becomes fascinating, and every question leads to a deeper appreciation of the cosmos.
To continue your journey through the stars and uncover more secrets of the universe, subscribe to Space Nuts on your preferred podcast platform. Until we embark on our next stellar voyage, keep your eyes on the skies and your curiosity unbounded.
Episode Chapters
(00:00) Welcome to Space Nuts: Astronomy and Space Science
(01:45) The story of Venus's quasi-moon and its mistaken identity
(07:10) Andrew and Fred discuss the hunt for missing sulfur in the universe
(15:23) Planetary nebulae and the solving of the sulfur anomaly
(22:45) The broad applications of sulfur, from volcanoes to industry
(24:30) Wrapping up and a reminder about Space Nuts Q&A

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Prepare to dive into the cosmic unknown with this captivating episode of Space Nuts, where your hosts Andrew Dunkley and Professor Fred Watson tackle the enigmatic questions that baffle even the most seasoned space enthusiasts.
First up, Nate challenges us with a classic conundrum: If the universe is expanding, what is it expanding into? Fred sheds light on this perplexing query with a blend of cosmological insights and geometrical possibilities, leaving us to ponder the very fabric of reality and the potential of unseen dimensions.
Next, Lee from Sweden seeks to understand the inner workings of Mars through the eyes of the InSight mission. How can a single point of reference on the Red Planet reveal so much about its interior and the impact of distant meteorites? The answer lies in the ingenious science of seismic waves, which our hosts promise to explore further—homework for the curious minds!
Finally, Wayne, a longtime supporter, wonders about the gravitational waves generated by supernovae and whether LIGO can detect them. Fred navigates through the explosive symmetries of supernovae and the peculiarities of neutron star mountains, offering a glimpse into the cosmic ripples that traverse our universe.
Packed with humor, profound insights, and the occasional canine interruption, this episode of Space Nuts is not just a journey through space but a testament to the boundless curiosity that drives us all. So, sit back, subscribe, and let Andrew and Fred guide you through the stars. And don't forget, your questions are the fuel for our cosmic explorations—keep them coming!
For more interstellar adventures and the answers to your most intriguing space questions, subscribe to Space Nuts on your favorite podcast platform. Until our next galactic gathering, keep reaching for the stars!
📋 Episode Chapters
(00:00) This is Space Nuts. Coming up, we're talking about the expansion of space
(00:39) If space is expanding, what is it expanding into
(07:35) Lee Stevenson has sent us a question about Mars exploration
(08:21) Lee: How do you detect seismic signals on Mars from thousands of kilometres away
(12:36) What kind of gravitational wave is generated by a supernova
(19:17) Professor Fred Watson, astronomer at large, getting over his tick bite



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Prepare to thrust into a celestial debate that flips conventional wisdom on its head! In this thought-provoking episode of Space Nuts, join Andrew Dunkley and the ever-astute Professor Fred Watson as they unravel a cosmic chicken-or-egg scenario: Did supermassive black holes or galaxies come first? With the James Webb Space Telescope peering back in time, new findings suggest a revolutionary twist in our understanding of the early universe. Could black holes have been the catalysts for star formation, predating the galaxies they inhabit?
But the intrigue doesn't end at the edge of the cosmos. Closer to home, SpaceX's Starship is making waves, not just with its plans for Mars colonization, but also with its potential military applications. Discover how this behemoth of a rocket could redefine rapid global transport, delivering cargo—or perhaps one day troops—across the planet in a mere hour. With suborbital flights on the horizon, we're on the cusp of a new era in logistics and space travel.
As always, Andrew and Fred expertly guide us through these cosmic conundrums with insights that challenge our perceptions and expand our understanding of the universe. So, space enthusiasts, buckle up for another episode that promises to take you on a journey beyond the stars.
For the latest updates in space discovery and answers to the universe's most perplexing questions, subscribe to Space Nuts on your preferred podcast platform. Join us as we continue to explore the wonders of space and science. Until our next celestial sojourn, keep your gaze skyward and your curiosity boundless!
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📋 Episode Chapters
(00:00) Andrew Dunkley hosts Space nuts, the astronomy and space science podcast
(01:16) Fred says he thought it was a tick bite, but it wasn't
(03:14) New research suggests black holes came first in the early universe
(13:30) Andrew Dunkley: I was going to ask how you feel about this theory
(14:35) Space company SpaceX is working on something that has the military intrigued
(22:52) Spaceplane system could be used to take passengers from London to Sydney
(24:49) Fred Watson: China is heading in same direction as the US in space

Join us for an intergalactic conundrum that will stretch your mind to the far reaches of the universe! In this enlightening episode of Space Nuts, your hosts Andrew Dunkley and Professor Fred Watson are navigating the cosmic highways and byways, tackling some of the most perplexing questions out there.
First stop: the mysterious Lagrange points. Listener Jim from Texas is puzzled about how gravity is balanced at these points, especially L2 and L3. Fred serves up a celestial explanation that involves not just gravity but centrifugal force, too. It's a cosmic balancing act that keeps our space missions on course and our minds in awe.
Next, we're zooming into the heart of galaxies where supermassive black holes reign supreme. Kerry's burning question leads us to differentiate the gravitational effects of these cosmic giants from the elusive dark matter. How do astronomers measure their impact separately, and could we have misjudged their mass? Fred illuminates the dark corners of this astronomical puzzle.
And for the grand finale, we're pondering the ultimate 'what if': communication with a superior alien race. If we could ask them just one question, what would it be? From the practical to the profound, Andrew and Fred muse over what could be humanity's most significant query.
Whether you're a cosmic rookie or a seasoned stargazer, this episode is guaranteed to provide a gravity-defying leap into the unknown. So, strap in and prepare for a journey that's as educational as it is entertaining. And remember, keep those questions coming – they just might be the next big topic on Space Nuts!
For all this and more, subscribe to Space Nuts on your favorite podcast platform, and join us on this stellar adventure. Until next time, keep your eyes to the skies and your hearts full of wonder.

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Prepare for a cosmic exploration that takes us from the realm of science fiction to the frontiers of science reality! In this thrilling episode of Space Nuts, join Andrew Dunkley and Professor Fred Watson as they delve into the mysteries of our very own solar system Death Star. No, it's not about to obliterate a planet; it's Mimas, Saturn's moon, capturing the scientific spotlight with a revelation that's causing quite the stir. Discover why this celestial body, bearing a striking resemblance to the infamous Star Wars construct, is now making waves with a potential sub-surface ocean hiding beneath its cratered façade.
But that's not all that's brewing in the interstellar pot. We're also venturing to the red plains of Mars, confronting the possibility that bacteria might not just survive but thrive under the harsh Martian conditions. What does this mean for future human missions to the Red Planet? Could these microscopic stowaways pose a threat to astronauts, or might they hold the key to unlocking the secrets of life beyond Earth?
With a blend of intrigue and expertise, Andrew and Fred navigate through these cosmic questions, offering insights that will leave you pondering long after the episode ends. So buckle up, space enthusiasts, as we embark on another adventure that's sure to expand your universe.
For those hungry for more interstellar knowledge, be sure to subscribe to Space Nuts on your favorite podcast platform and join our growing community of astronomy aficionados. With new episodes filled with astronomical wonders and answers to your burning space queries, Space Nuts is your gateway to the cosmos. Until next time, keep gazing upward and let your curiosity lead the way!
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Show notes created by https://headliner.app
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📋 Episode Chapters
(00:00) This is space nuts. Coming up, we're looking at the Death Star
(03:05) It might be opportunist bacteria that follows the bite that could cause Alzheimer's
(04:39) Fred says moon Mimus actually librates around planet Earth
(12:16) Andrew Ker: Mimas and Enceladus are totally different moons
(18:56) NASA to try flutter test on its ingenuity helicopter on Mars
(19:52) Scientists have tested four human infectious bacteria to survive harsh Martian environments
(26:37) Fred Watson says bacteria could pose a risk to astronauts on Mars


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Strap in, Space Cadets, for another interstellar journey with the Space Nuts podcast! This week, Andrew Dunkley and Fred Watson tackle the cosmic curiosities that baffle even the brightest minds. From the perplexing simplicity overlooked by space agencies to the dizzying dance of celestial bodies, we're delving deep into the enigmas of the cosmos.
First up, we're debunking space myths with a true tale of the infamous space pen versus the humble pencil. Discover how practicality trumps simplicity when it comes to jotting down notes in zero gravity, and why sometimes, the most obvious solution isn't the best one for the job.
Next, we're spinning into the question that's got everyone's head turning: Why does everything in the universe love to twirl? Lynn from Victoria wants to know why stars, planets, and galaxies can't resist a good rotation. Fred unravels the mysteries of angular momentum and explains how the cosmic ballet is all part of the gravitational grand design.
And if we could converse with extraterrestrials, what would we ask? We're pondering the ultimate intergalactic icebreakers and saving this cosmic conundrum for our next episode.
So, whether you're a seasoned space traveler or a curious newcomer, join us for a voyage through the wonders of the universe. And remember, your questions fuel our adventures, so keep them coming!
For more interstellar insights, subscribe to Space Nuts on YouTube, become a patron for exclusive content, and explore the universe with us at spacenuts.io. Until next time, keep your eyes on the skies and your mind open to the infinite possibilities of space. Catch you on the next episode of Space Nuts!


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This eisode of Space Nuts is brought to you by Incogni. It's all about your online security and safety. To get the special deal Andrew talks about and endorses, just vist incogni.com/spacenuts

Prepare to embark on an astronomical chase like no other! In this riveting episode of Space Nuts, we delve into the ambitious plans to capture our solar system's elusive visitor, the exo-asteroid 'Oumuamua. Once thought to be an impossible feat, we explore the groundbreaking strategy that could see us rendezvousing with this interstellar interloper by 2057. The race is on to unlock the secrets it holds and to answer the burning question: is it a mere space rock or a piece of extraterrestrial technology?
But the intrigue doesn't stop there. We also turn our gaze to the cradles of cosmic birth, where planets emerge. Forget the traditional image of infant planets as perfect spheres; new research suggests these celestial newborns might be more M&M-shaped than we ever imagined. Join us as we dissect the latest theories on planet formation and ponder whether our very own Earth started life as an oblate spheroid.
With technical glitches providing an unexpected twist, Andrew and Fred navigate through these cosmic conundrums with their characteristic blend of expertise and humor. So, get ready to rethink your understanding of the cosmos, from chasing down interstellar objects to the peculiar shapes of nascent planets, all on this episode of Space Nuts.
Remember, the universe is vast and full of wonders waiting to be discovered. Don't miss a moment of the journey—tune in now to Space Nuts!
The resources mentioned in this episode are:
· Explore the detailed plan to chase 'Oumuamua at cosmosmagazine.com
· Dive into the latest theories on planet formation at phys.org (that's P-H-Y-S.org)
· Engage with the Space Nuts community and send in your cosmic queries or thoughts
Timestamped summary of this episode:
00:00:00 - Introduction: Andrew Dunckley sets the stage for today's cosmic topics.
00:02:15 - The Chase for 'Oumuamua: Discussing the potential mission to intercept the mysterious exo-asteroid.
00:11:30 - Planet Formation Theories: A new twist on how planets might take shape, suggesting they start as oblate spheroids rather than spheres.
00:20:45 - Listener Engagement: Encouraging the audience to share their thoughts and questions for future episodes.

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Are you ready to uncover the mind-bending secrets of our universe? Join us as we reveal the unexpected truth about the formation of habitable planets and the potential for multiple habitable worlds within a single solar system. You won't believe how many habitable planets could exist in the perfect cosmic sweet spot. And as we delve deeper into this cosmic mystery, prepare to be amazed by the surprising possibility of habitable moons orbiting gas giants. The answer lies in the unexplored realms of our vast universe, waiting to be unraveled. Stay tuned for an eye-opening journey through the cosmos that will challenge everything you thought you knew about planetary systems and cosmological potential. Get ready to expand your understanding of the universe in ways you never imagined. In this episode, you will be able to: · Explore the mysteries of fast blue transient explosions and their impact on our understanding of the universe. · Discover the fascinating Glass Z 12 high-redshift galaxy, offering insights into the early universe and cosmic evolution. · Grasp the uncertainties in astronomy research and how they drive innovation and breakthrough discoveries. · Uncover the complexity of the early universe and gain a deeper appreciation for its profound impact on cosmic evolution. The bottom line is Dave's right to question this, because we can't guarantee what the universe is going to do. We don't have any sort of control over that. All we can do is observe what it's doing now, and through the magic of the fact that we can look back in time, we get a good idea of what it's done in the past. - Fred Watson Glass Z 12 High-Redshift Galaxy Glass Z 12 is a high-redshift galaxy, noted for its advanced state of maturity shortly after the Big Bang. Its study, largely facilitated by the GrISM lens Amplified Survey from Space (GLASS) using the James Webb Space Telescope, sheds light on the early universe's formation and evolution. Despite the advanced observational technology, the nature of such galaxies holds persisting enigmas, stimulating ongoing research and debates in the astronomical community. The resources mentioned in this episode are: · Visit spacenutspodcast.com to send in your text or audio questions for the show. · Subscribe to the Space Nuts podcast on Apple Podcasts, Spotify, iHeartRadio, or your favorite podcast player. · Stream on demand at bytes.com to listen to the latest episodes of Space Nuts. · Check out the Space Nuts YouTube channel and subscribe for more space-related content. · Explore the Space Nuts website for more information and to send voice messages to the hosts. Timestamped summary of this episode:
00:00:00 - Introduction and Overview
Andrew Dunkley introduces the episode as an all-audience questions episode. He mentions the topics to be discussed, including fast blue transients, ghost galaxies, and the heaviest isotopes in planet formation.
00:02:23 - Fast Blue Transients and Galaxy Development
Derek asks about the cause of fast blue optical transient explosions, referencing the unusual shape of the explosion. Fred Watson discusses the mysterious nature of fast blue optical transients and the potential reasons behind their unique properties.
00:09:44 - Early Universe and Galaxy Evolution
Renny inquires about the development of mature galaxies like glass z 13 in the early aftermath of the Big Bang. Fred Watson explains the significance of glass z 12 as an early galaxy and addresses the possibility of wormholes and membrane theory in relation to galaxy evolution.
00:17:08 - Expansion of the Universe and Dark Energy
Dave from Calgary asks about the expansion of the universe and its acceleration. He questions whether the universe will ever slow down due to dark energy. Fred Watson discusses the concept of dark energy and explains why the universe's expansion is unlikely to slow down.
00:18:05 - Comparing Bullet Firing with Universe Expansion
Discusses...

Are you eager to uncover the secrets of space exploration and gain expert insights? Ready to grasp complex concepts and challenges in the realm of astronomy and astrophysics? I've got just the solution to enhance your understanding and satisfy your curiosity. Let's dive into the Space Nuts podcast and unravel the mysteries of the universe together! In this episode, you will be able to: · Explore the Dark Matter Halo of Our Galaxy: Unravel the mystery surrounding dark matter and its impact on our galaxy. · Uncover the Mysterious Presence of Methane on Mars: Discover the intriguing presence of methane on the Red Planet and its implications for potential life. · Delve into Speculative Ideas on Cooling the Earth: Gain insights into innovative concepts for mitigating the Earth's rising temperatures. · Discover the Challenges of Moving Planets: Understand the complexities and obstacles involved in the theoretical idea of planetary relocation. Life becomes routine, is what. Yes, that's what it is. Yeah, I get that. I quite like routine, actually, unlike my other half, who doesn't, which is why she's constantly conjuring up these tours that we do to take people around to places where we've never been. - Professor Fred Watson
Finally, the hosts examine speculative ideas from listeners relating to ambitious, large-scale engineering projects, such as the Solar Pergola and moving planets. Reminding us that while such concepts may dazzle the imagination, the practical feasibility and risks associated with these ideas are significant. The focus on prudence and consideration of potential unintended consequences underscores the responsibility that comes with technological advancements, especially when meddling with natural systems of the cosmos. It's The resources mentioned in this episode are: · Visit spacenutspodcast.com or spacenuts.io to submit your questions for the next all-question episode. · Check out the Space Nuts shop on the website for Space Nuts merchandise, including t-shirts. · Become a patron of Space Nuts to support the podcast and gain access to exclusive benefits. · Listen to the Space Nuts podcast on Apple Podcasts, Spotify, iHeartRadio, or your favorite podcast player. · Stream Space Nuts on demand at bitesz.com. Timestamped summary of this episode:
00:00:00 - Introduction and Ingenuity's End
Andrew Dunkley introduces the topics for this episode, including the end of the mission for the ingenuity helicopter on Mars after suffering damage from a landing mishap.
00:03:42 - Slim Moon Lander's Upside-Down Landing
The discussion moves to the slim moon lander's successful but tilted landing on the moon, leading to challenges with solar panel orientation. Despite the setback, some scientific experiments are being carried out.
00:13:13 - Arno Penzias' Legacy
The passing of physicist Arno Penzias is noted, highlighting his groundbreaking discovery of cosmic microwave background radiation, which confirmed the Big Bang theory and contributed to the decline of the steady state theory of the universe.
00:16:20 - Quirks of Dark Matter in the Milky Way
The conversation shifts to an exploration of the unique behavior of dark matter in the Milky Way, particularly in its extremities, suggesting that our galaxy's dark matter may exhibit distinct characteristics compared to other galaxies.
00:16:31 - Closing Remarks
Andrew Dunkley and Professor Fred Watson wrap up the episode, thanking listeners for tuning in and hinting at the intriguing nature of the dark matter discussion as a teaser for future episodes.
00:17:09 - Understanding the Galaxy's Geometry
Fred and Andrew discuss the challenges of mapping our galaxy's geometry, including the difficulty of establishing details about our own galaxy due to our position within it.

00:19:10 - The Mystery of Galaxy Rotation

The conversation explores the discovery of the unusual flat rotation curve of...

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If you're feeling frustrated because you've been reading multiple scientific articles, but still feel confused about space exploration, then you are not alone! If you're feeling overwhelmed because you've been watching documentaries about the universe, but still struggle to understand the latest scientific discoveries, then you are not alone! If you're feeling discouraged because you've been attending lectures on space exploration, but still find it difficult to grasp the concepts, then you are not alone! If you're feeling disheartened because you've been following space-related news, but still lack the in-depth knowledge you desire, then you are not alone! In this episode, you will be able to: · Explore the Universe's Rotation and Exploration: Uncover the mysteries of the universe's rotation and delve into the latest space exploration discoveries. · Unravel the Temperature of Space and James Webb Telescope: Understand the extreme temperatures of space and the groundbreaking capabilities of the James Webb telescope. · Discover Curiosities About Galaxies and the Expanding Universe: Delve into the fascinating world of galaxies and gain insights into the expanding universe, sparking your curiosity about the cosmos. · Engage with Listener Questions and Interactions: Engage with our community as we answer intriguing listener questions and foster a deeper understanding of space exploration. The background temperature of space is indeed 2.7 degrees Kelvin. And what that is, is the radiation from the big Bang. - Fred Watson Unleash Your Curiosity about Galaxies and the Expanding Universe The boundless nature of the universe and the enigma of what lies beyond our vision sparks the hosts' curiosity. They express a compelling interest in observing the expanding universe's limits and finding what lies beyond the visible cosmos. Furnishing the listeners with a mental image of the unknown, the episode fosters a deeper appreciation for space exploration and the mysteries it holds. The resources mentioned in this episode are: · Visit the Space Nuts podcast website to listen to more episodes and submit your own questions or comments. · Check out the James Webb Space Telescope's latest updates and discoveries on the NASA website. · Explore the concept of the equation of state and its implications in cosmology through reputable scientific sources and publications. · Learn more about the temperature of space and the cosmic microwave background radiation from reliable scientific sources and educational materials. · Stay updated on the latest space news and discoveries by subscribing to the Space Nuts podcast on your preferred podcast platform. · The key moments in this episode are:
00:00:00 - Introduction and Oldest Black Hole Discovery
00:02:52 - James Webb Space Telescope's Discovery
00:11:32 - Asteroid Impact on Earth
00:16:33 - Astronomer Christian Sarnesky's Discoveries
00:12:23 - Summary and Conclusion
00:17:02 - Meteorite Recovery and Asteroid Monitoring
00:19:42 - Mars Copter's Communication Issues
00:23:48 - Ingenuity's Success and Challenges
00:25:41 - Equation of State and Cosmological Constant
00:30:25 - Does the Universe Rotate?
00:35:04 - Rotation of the Universe
00:36:27 - Hypothetical Telescope
00:41:41 - Temperature of Space
00:45:19 - Listener Feedback

Explore the Universe's Rotation and Exploration This podcast episode embarks on a fascinating discussion about the rotation of the universe. While it remains a challenging concept without a frame of reference, the possibility is raised that if multiple universes exist, our own could indeed be rotating. Furthermore, the hosts...

If you're feeling frustrated by the lack of understanding dark energy, despite hours spent researching and reading about it, then you are not alone! Despite your efforts to grasp the concept, you may feel like you're still no closer to unraveling the mysteries of the universe. The confusion and uncertainty may be leaving you feeling disheartened and discouraged about ever truly understanding dark energy. But rest assured, many others share your struggle and are also seeking clarity on this complex topic.
In this episode, you will be able to:
· Understand the origins of water in the solar system and its significance for life beyond Earth.
· Explore the fascinating process of the formation of the solar system and how it shaped our cosmic neighborhood.
· Discover the potential for terraforming Venus, unlocking the possibility of transforming inhospitable planets into habitable ones.
· Uncover the abundance of water in the solar system and its implications for future space exploration and colonization.
· Learn about the slingshot effect in space missions and how it enables spacecraft to travel vast distances with limited fuel.

'Two out of the three atoms in a water molecule are hydrogen. So two thirds of your 75%, which is 50% of the atoms in your body, come from the Big Bang. Why? You feel old these days? 13.8 billion year old hydrogen.' - Andrew Dunkley

Terraforming Venus Possibilities: Terraforming Venus is a topic of fascinating discussion. The suggestion of transforming its carbon dioxide-heavy atmosphere using photosynthetic algae could potentially cool it down over extended periods. However, the surface atmospheric pressure on Venus is significantly higher than Earth's, making such an endeavor incredibly complex and presently unfeasible.
The key moments in this episode are:
00:00:00 - Introduction to Dark Energy Survey
00:08:15 - Peregrine Lander Mission
00:13:48 - Dark Energy Survey Results
00:16:18 - Quintessence and Thunderplump
00:17:38 - Exploring the Cosmic Megastructure
00:19:56 - Universe Homogeneity and Big Ring Discovery
00:23:16 - Speculation on Megastructure Origins
00:24:53 - Unraveling the Mystery of Cosmic Structures
00:29:32 - Addressing Audience Feedback
00:34:17 - Formation of the Solar System and Origin of Water
00:37:27 - Slingshot Effect and Spacecraft Momentum
00:40:43 - Terraforming Venus and Atmospheric Cleanup
00:45:04 - Are Humans Stars? Stardust Origins

The resources mentioned in this episode are:
· Visit spacenutspodcast.com or spacenuts.io to send in your text or audio questions.
· Listen to Space Nuts on Apple Podcasts, Spotify, iHeartRadio, or your favorite podcast player.
· Stream on demand at bitesz.com or spacenuts.io.
· Check out the documentary The Stars by the BBC.
· Send feedback or questions through the Space Nuts website.

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Timestamped summary of this episode:
00:00:00 - Introduction and Peregrine Moon Lander
Andrew Dunkley introduces the episode and discusses the recent launch of the Peregrine moon lander, which has encountered a mission failure problem.
00:03:48 - Issues with Peregrine Moon Lander
Fred Watson discusses the issues faced by the Peregrine moon lander, including the inability to charge its batteries and critical propellant loss, leading to doubts about its planned lunar landing.
00:11:00 - Search for Copernicus's Remains
Fred Watson dives into the fascinating search for the remains of Nicholas Copernicus, the renowned astronomer and mathematician, highlighting the historical significance and efforts to identify his burial site.
00:14:16 - Discovery of Copernicus's Skeleton
Fred Watson details the discovery of a skeleton near the altar of the Holy Cross in Frombork Cathedral, believed to potentially belong to Copernicus, and the subsequent genetic analysis to confirm its identity.
00:15:41 - DNA Analysis and Book Reference
The discussion continues with the challenges of conducting DNA analysis for confirming Copernicus's remains, as well as the unexpected discovery of a book used by Copernicus, adding further depth to the search for his identity.
00:16:36 - Unveiling Copernicus' Skeleton
Researchers in Sweden used genetic material from hairs found in a book to match them with Copernicus' teeth and bones, providing strong evidence of his identity.
00:18:47 - The Vasa Ship and its Tragic Fate
A brief discussion about the Vasa, a 17th century sailing ship that sank on its maiden voyage in Stockholm due to a lopsided weight distribution and other theories.
00:20:37 - The Identification of Nicholas Copernicus
After confirming the identity of Copernicus' skeleton, it is likely that the bones have been reburied, marking a significant breakthrough in science history.
00:21:31 - Mystery of Titan's Ghost Islands
Cassini's radar imaging of Titan revealed temporary bright patches in the seas, sparking theories about their composition and behavior, shedding light on the mysteries of this alien world.
00:29:33 - Quantum Entanglement and Additional Dimensions
Rusty's question about quantum entanglement prompts a discussion on the potential existence of additional dimensions and ongoing research into fundamental physics, including the search for dark matter and dark energy.
00:34:20 - Quantum Confusion
Discussion on the complexity of quantum-related topics and the potential for confusion in understanding them.
00:35:16 - Planetary Formation
Explanation of how the location of the frost line in the solar system led to the differentiation between rocky and gas giant planets.
00:38:08 - Ice Planets and Dwarf Planets
Exploration of the composition of dwarf planets and how the distance from the sun impacted their formation and characteristics.
00:40:58 - Solar System Variations
Consideration of the variability of planetary formations in other solar systems compared to the unique characteristics of our own solar system.
00:42:28 - Uncharted Territories
Contemplation of the possibility of undiscovered elements in the outer reaches of the solar system and the ongoing search for new celestial bodies.

Join us as we delve into the recent mission failure of the Peregrine moon lander and the search for the lost grave of Copernicus. But just when it seemed like we might unravel the mysteries of the universe, a shocking turn of events leaves us hanging in the balance. Are we on the brink of a groundbreaking discovery, or will the secrets of space remain elusive?

In a serendipitous moment, Andrew Dunkley's passion for astronomy was sparked by a chance encounter with a telescope at a friend's house. Little did he know that a simple gaze through the lens would ignite a lifelong curiosity for the mysteries of the universe. As he delved into books, documentaries, and conversations with fellow enthusiasts, his thirst for cosmic knowledge only grew stronger. What cosmic wonders await those who seek to understand the stars and galaxies?

In this episode, you will be able to:
· Explore the fascinating world of galaxies' rotation curves and their intriguing variations. · Discover the hidden secrets of spiral arms visibility through the lens of infrared observations. · Understand how gravity bends space and its profound implications on the universe.
· Uncover the crucial distinctions between dark matter and dark energy, unraveling cosmic mysteries.

"You can do anything in science fiction.' - Andrew Dunkley

Bending of Space due to Gravity
Gravitational influence on the bending of space is a central concept in Einstein's theory of relativity. It proposes that the force of gravity resulting from an object's mass distorts space around it. This remarkable insight about the interplay between gravity and spacetime allows us to understand extraordinary phenomena, such as the distortion of star positions during an eclipse. This theory immensely enriches our understanding of the universe and shapes our perception of space and time.

The resources mentioned in this episode are:
· Visit spacenutspodcast.com to send in your own audio or text questions for the show.
· Check out the AMA link on the website to submit your questions for the next episode. ·
Click on the tab on the right-hand side of the homepage to send in your audio questions. · Listen to the Space Nuts podcast on Apple Podcasts, Google Podcasts, Spotify, iHeartRadio, or your favorite podcast player. ·
Stream on demand at bitesz.com to catch up on previous episodes. ·

The key moments in this episode are:
00:00:00 - Thank you and break announcement
00:02:22 - Q&A Episode Introduction
00:08:01 - Understanding Gravity
00:11:14 - Theoretical Walk on a Neutron Star
00:16:46 - Clarification on Biochemical Processes
00:17:25 - RNA as the precursor to DNA and proteins
00:18:57 - Dark energy and dark matter web
00:22:17 - Universe's expansion and the role of dark energy
00:25:03 - White holes and dark matter
00:29:13 - Period of inflation and the speed of light
00:34:21 - The World Wide Web nickname
00:36:14 - Speed of light and space travel
00:37:22 - Counting stars in the Milky Way
00:43:16 - Planetary diversity and moon composition
00:47:22 - Tipler cylinder and time travel
00:51:37 - The spacecraft design and terraforming challenges
00:52:29 - Science fiction and John Birmingham's latest series
00:53:38 - The Super Dunk series and a request to the author
00:54:27 - Audience engagement and question submissions
00:55:23 - Conclusion and farewell

Variation of Rotation Curves
The variation of rotation curves is an intriguing aspect of galaxies that fascinates astronomers. It refers to the speed at which stars and other celestial objects move around the center of a galaxy, and how this speed impacts the overall shape and structure of the galaxy. This element of astrophysics provides critical insights into how galaxies evolve over time, contributing significantly to our understanding of the universe's dynamics.

Infrared Observations and Spiral Arms
Infrared observations are pivotal to astronomy, allowing us to perceive celestial bodies and phenomena that remain concealed in other wavelengths. One interesting feature that can be detected in this way is the dust in...

While Fred and Andrew head off on an end of year break....we dip back into our recent past and bring you one of our 'all-questions' episodes for a repeat run, just in case you missed it the first time or simply need a refresh.

Are you ready to have your understanding of the universe redefined? Picture this: a renowned expert advisor on dark and quiet skies, engaged in international cooperation at the United Nations, suddenly encounters a groundbreaking discovery that could revolutionize our perception of space and time. This unexpected twist in the story opens up a whole new world of possibilities, hinting at a connection between black holes and dark energy that could change everything we thought we knew about the cosmos. Stay tuned to find out more about this mind-boggling revelation.

In this episode, you will be able to:
· Explore the mysteries of black holes and dark energy to unlock the secrets of the universe. · Understand the mind-bending concept of the universe's expansion and its implications for the future of space exploration.
· Delve into the dangers posed by rubble pile asteroids and the potential impact on life on Earth.
· Discover the fascinating process of magnetic fields escaping from black holes and its significance in our understanding of the cosmos.
· Uncover the potential of artificial gravity and nuclear fusion, offering a glimpse into the future of space travel and habitation.

'Gravity and acceleration are equivalent. We can generate an acceleration by having a rotating wheel, exactly as in 2001, a space odyssey.' - Fred Watson

The resources mentioned in this episode are:
· Visit the Space Nuts website to submit your own voice question or text question for the podcast.
· Check out the Space Nuts shop on their website for space-themed merchandise and support the podcast.
· Become a patron of Space Nuts to support the show and gain access to exclusive benefits. · Listen to the Space Nuts podcast on various platforms including Apple Podcasts, Google Podcasts, Spotify, and iHeartRadio.
· Stream Space Nuts on demand at bitesz.com.

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Do you want to gain a deeper insight into the orbit and history of Halley's Comet? We are sharing valuable updates and information to help you achieve a more comprehensive understanding of the comet's trajectory and background. Through the updates, you will be able to enhance your knowledge of Halley's Comet's path and historical significance, leading to a more informed appreciation of this celestial phenomenon. Join us as we delve into the latest discoveries and insights about Halley's Comet.
In this episode, you will be able to: ·
Explore the fascinating orbit of Halley's Comet and its intriguing history. ·
Stay updated on the latest discoveries and developments related to Halley's Comet. · Discover the recent breakthrough in understanding the giant coma stream of Halley's Comet. · Delve into the complex relationship between density and temperature in space phenomena. · Uncover the captivating details of the impending collision between Andromeda and the Milky Way.

'May you live in interesting times. Well, yeah. Okay. Major operation, moving house. Lots of job changes. Finished up at the Salvation army the other day. Yeah, it's all happening. Hopefully next year will be much smoother.' - Andrew Dunkley

Density and Temperature of Celestial Bodies: Understanding the extremes of density and temperature in the universe gives us incredible insights. A black hole epitomizes infinite density, while absolute zero, a temperature of -273.15 degrees Celsius, represents the cessation of atomic motion. The temperature scales we use, such as Celsius and Kelvin, are critical in discussing these concepts as they relate directly to the properties of matter.

The resources mentioned in this episode are: ·
Listen to the Space Nuts podcast on Apple Podcasts, Google Podcasts, Spotify, iHeartRadio, or your favorite podcast player. ·
Stream on demand at bitesz.com for more Space Nuts episodes. ·
Become a patron to support the Space Nuts podcast and gain access to exclusive content. Details on our website. ·
Check out Cafe Celsius in Oslo, Norway for a delightful dining experience. ·
Stay tuned for the next episode of Space Nuts in the new year for more fascinating space discussions.

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Join us as we uncover the potential for a breathtaking new meteor shower, diving into the irony of lost fruit in space and exploring the tantalizing possibility of the speed of life after the Big Bang.

In this episode, you will be able to:
· Explore the potential new meteor shower and its implications for stargazers and astronomy enthusiasts.
· Delve into the fascinating topic of lost fruit in space and its unexpected journey beyond our planet.
· Uncover the mysteries of life after the Big Bang and how it shaped the universe as we know it.
· Discover the Doppler effect, redshift, and slingshot effect, and how they have revolutionized our understanding of celestial bodies.

'We're blessed with good fortune for this particular meteor display, as we are with the Geminids, because the moon is new effectively at the moment, so there's no moonlight'. - Andrew Dunkley

Lost Fruit in Space
The cosmic mystery deepens, as astronomers shed light on the curious topic of lost fruit in space. Tying in with a light-hearted reference to a popular television series, researchers examine how space travel affects the development of fruit flies sent to the International Space Station. This strange case brings us closer to understanding life's adaptation to zero-gravity environments.

The resources mentioned in this episode are:
· Visit the Dark Sky Traveler website at darkskytraveler.com.au to book a tour to witness the total solar eclipse in Texas and Cape Canaveral in April 2028.
· Check out the Dark Sky Traveler website for information on a trip to Canada, which can be combined with the Texas and Cape Canaveral tour for a complete eclipse experience.
· Stay updated on the latest episodes of Space Nuts by subscribing on Apple Podcasts, YouTube Music, Spotify, iHeartRadio, or your favorite podcast player.
· Stream on demand at www.spacenuts.io, www.bitesz.com to catch up on previous episodes of Space Nuts and stay up to date with the latest astronomy and space science news. · Add your name to the Europa Clipper mission through the NASA website to become part of this exciting space exploration endeavor.
· Submit your questions for the Space Nuts podcast by visiting the official website and using the provided form. Your questions could be featured in an upcoming episode.
· Join the Space Nuts podcast group on Facebook to connect with other space enthusiasts and stay informed about the latest news, discussions, and events related to astronomy and space science.
#MeteorShower #AstronomyEnthusiasts #NewAstronomicalPhenomena #SpaceDiscoveries . #Stargazing #MeteorShowerEnthusiasts #CosmicPhenomena #AstronomyNews #CelestialEvents #SpaceNutsPodcast

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In this episode of Space Nuts, Andrew and Fred discuss the naming of Australia's moon rover, a gamma ray burst that affected Earth's atmosphere, and the discovery of a reappearing, disappearing galaxy. They also answer a listener's question about the Kardashev scale and the possibility of constructing a Dyson sphere. In this episode, Fred and Andrew discuss various topics related to astrophysics and space exploration. They speculate on the existence of advanced civilizations and megastructures, highlighting the vast technological advancements required for such feats. They also delve into the concept of tidal locking, explaining how planets and moons become tidally locked and the role of friction in this process. Lastly, they explore the challenges of measuring the speed of objects in space and the absence of an absolute frame of reference. Takeaways Australia's moon rover has been named 'Roover' through a public vote, highlighting the lack of imagination in the country. A gamma ray burst from a galaxy 2 billion light years away affected Earth's atmosphere, demonstrating the vulnerability of our planet. The discovery of a reappearing, disappearing galaxy suggests the existence of dusty galaxies that are not visible in optical wavelengths. The Kardashev scale is a measure of a civilization's energy usage, and the construction of a Dyson sphere is a hypothetical megastructure that can harness the energy of a star. The existence of advanced civilizations and megastructures is purely speculative and not supported by current astrophysical evidence. Tidal locking occurs when a planet or moon's rotation matches its orbital period, resulting in one side always facing the other. This process is influenced by gravitational forces and friction. Measuring the speed of objects in space is complex due to the absence of an absolute frame of reference. Speed is often calculated relative to other objects or reference points. The speed of light, approximately 300,000 kilometers per second, is a fundamental constant in physics and has been measured and predicted accurately.

Chapters
00:00 Introduction and Naming of Australia's Moon Rover
06:05 Gamma Ray Burst and Mysterious Disappearing, Reappearing Galaxy
25:14 Discussion on AzTEC 71 and Dusty Galaxies
36:07 Question on Kardashev Scale and Dyson Spheres
39:42 Speculating on Advanced Civilizations
43:30 Tidal Locking of Planets and Moons
50:00 Measuring the Speed of Objects

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In this episode as we (attempt) to answer your burning questions, you will be able to:
· Explore the mind-bending mysteries of black holes and event horizons.
· Discover fascinating specializations within the fields of physics and astronomy.
· Uncover the constant evolution and breakthroughs in the astronomy field.
· Delve into the intriguing world of privatization of satellite launches.

"How do you tell the difference between something that is very, very dense but not infinite, and something that is infinite?" - Fred Watson
Exploring Specializations in Physics and Astronomy
We delve into various specializations in physics and astronomy like solar physics, space physics, and astro seismology. These fields are ever-evolving, and researchers often move between specializations. The discussion underscores the diverse and dynamic nature of these sciences, emphasizing that broad-based knowledge and collaboration are indispensable for progress.

The resources mentioned in this episode are:
· Visit our website to listen to more episodes of Space Nuts. https://spacenuts.io
· Check out our social media pages for updates and behind-the-scenes content.
· Subscribe to our podcast on your preferred podcast platform to never miss an episode. · Join our mailing list to receive exclusive content and updates.
· Explore our merchandise store to get your own Space Nuts shirt and show your support. · Submit your own questions for a chance to have them answered on a future episode.
· Follow Professor Fred Watson on social media for more astronomy insights.
· Learn more about black holes and their properties by reading scientific publications and books on the topic.
· Consider studying astronomy or physics to specialize in a specific field of research. · Support organizations and initiatives that promote scientific research and education, such as the Australian Academy of Science or the International Astronomical Union.

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This episode of Space Nuts is brought to you by Dragonball Legends. Download it on your mobile device from the Apple App Store or Google Play and help support Space Nuts.

Space enthusiasts and science lovers, Andrew Dunkley and Professor Fred Watson dive into the ironic and thrilling quest to find a lost tool bag from the International Space Station, using humor and binoculars to spot its bright apparition in the night sky and uncover the mysteries of space. · Discover the fascinating world of space exploration in the latest episode of the Space Nuts podcast. · Experience the exhilaration of zero gravity as you take a virtual roller coaster ride through space. · Join the hunt for a lost tool bag from the International Space Station and learn about the challenges of retrieving lost items in space. · Dive into the mind-boggling mysteries of black holes and unravel the secrets behind the formation of planets. · We talk about SpaceX’s latest rocket test and how it really was a success. · Uncover the origin of water on Earth and how it shaped the development of life on our planet. The key moments in this episode are:
00:00:00 - Introduction
00:00:20 - Spinning Sagittarius A*
00:00:27 - Planets and Pebbles
00:00:34 - Lost Space Rocket and Tool Bag
00:00:45 - Audience Questions
00:15:37 - The Earth's Rotation and Black Holes
00:18:13 - Black Hole's Mass and Rotation Speed
00:22:35 - Water Formation in Planets
00:25:47 - Icy Pebble Drift Theory
00:33:32 - Possibility of a habitable moon orbiting a super Earth
00:39:08 - Energy emissions from quasars
00:41:17 - Dark matter stars
00:41:57 - Favorite space conspiracy theories
00:50:47 - How to Send Questions
00:51:09 - Support and Becoming a Patron
00:51:16 - Wrapping up the Show
00:51:53 - Conclusion and Goodbye

Decipher the enigma of the lost tool bag Take part in the intriguing discussion about the lost tool bag from the International Space Station. The conversation explores the probable fate of the bag and its potential visibility from earth, sparking your curiosity. Find yourself enthralled by the veil of mystery surrounding this seemingly mundane item, as it orbits our planet. · https://www.facebook.com/spacenutspodcast · www.spacenuts.io · https://www.twitter.com/spacenutspod · https://www.linkedin.com/in/biteszHQ · https://www.youtube.com/@spacenutspodcast In this episode, you will be able to: · Discover the thrilling experience of zero gravity on a roller coaster, transporting you to the weightless realm of outer space. · Explore the fascinating tale of a lost tool bag from the International Space Station and the ingenious efforts to retrieve it, showcasing the resourcefulness of astronauts. · Unveil the mysteries behind black holes and their role in the formation of planets, shedding light on the incredible cosmic forces shaping our universe. · Dive into the captivating story of the origin of water on Earth, unraveling the secrets of our planet's life-sustaining liquid and its connection to the vastness of space. Space junk is a big problem...cost[ing] a million dollars a shot...SpaceX's technique for improving things...You build it and try it out. If it doesn't work, you think again and build it again. And when you've got a lot of money, that's what you can do. - Andrew Dunkley

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In this episode,hosts Andrew Dunkley and Professor Fred Watson delve into the cataclysmic demise of the dinosaurs, exploring various extinction theories with a fervent quest for truth, unraveling the enigmatic ancient puzzle while seeking to unearth the ultimate cause. In this episode, you will be able to:
·
Explore the fascinating theories behind the extinction of dinosaurs and gain a deeper understanding of this monumental event in Earth's history.
·
Discover the impact that star growth has on planets orbiting around them, unraveling the intriguing dynamics of celestial bodies.
·
Delve into the mysteries of the Andromeda galaxy, known for its massive black holes, and uncover the secrets hidden within its immense expanse.
·
Learn how gravity and Hawking radiation intertwine, shedding light on the intricate relationship between these fundamental forces of the universe.
·
Immerse yourself in the captivating discussions from the Space Nuts podcast, where space enthusiasts and science lovers engage in thought-provoking conversations about our vast cosmos.
·
Gain a deeper understanding of the theories surrounding the extinction of dinosaurs and uncover the mysteries behind their disappearance.
·
Explore the fascinating impact of star growth on orbiting planets, and how it influences the conditions necessary for life to exist.
·
Discover the captivating secrets of the Andromeda galaxy and its enigmatic black holes, expanding your knowledge of the vastness of the universe.
·
Unravel the intricate interplay between gravity and Hawking radiation, and its implications for our understanding of the fundamental laws of physics.
·
Delve into the Space Nuts podcast discussions and indulge your curiosity in a wide array of captivating space-related topics, offering a unique opportunity to expand your knowledge and engage with fellow space enthusiasts. It's extraordinary that 40 years after it was suggested, we're still finding out about this impact and seeing different aspects to it because of the devastation that it caused. - Andrew Dunkley
The extinction of dinosaurs has been a topic of intrigue for centuries. Various theories propose the cause to be major environmental changes, catastrophic asteroid impact, or major shifts in vegetation, leading to dental maladies among the dinosaurs. The most recent development in this field proposes a global winter induced by the fallout of an asteroid impact, a theory which aligns with the devastation level required to cause such a mass extinction. The resources mentioned in this episode are:
·
Visit thecosmosmagazine.com website to read more about the new theory on what caused the extinction of the dinosaurs.
·
Check out the paper titled Chicxulub Impact Winter, sustained by fine silicate dust in the journal Nature Geoscience for more details on the research.
·
Explore the concept of the Anthropocene period and human-induced climate change by searching for articles and studies on the topic.
·
Learn more about the sun and its evolution by researching yellow dwarf stars and stellar evolution.
·
Discover more about the star Ro Corona Borealis and its similarities and differences to our own sun by searching for information on the star and its characteristics.
·
Read the paper by Stephen Kane in the Astrophysical Journal to delve deeper into the research on planets orbiting sunlike stars.
·
In this episode of the Space Nuts podcast, you'll join host Andrew Dunkley as he delves into the fascinating world of space exploration and scientific discoveries. With...

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In this episode of Space Nuts, hosts Andrew Dunkley and Fred Watson dive into two fascinating topics that will leave space enthusiasts craving for more. They start by discussing the recent discovery about the moon's age, shedding light on its true origin and challenging previous assumptions. Dunkley's engaging and informative conversation with Professor Fred Watson delves into the research methods used to uncover this groundbreaking finding. But the excitement doesn't stop there. The episode also explores NASA's ongoing search for water ice on Mars through the SWIM project. Andrew and Fred discuss the implications of finding water ice on the Red Planet and how it could benefit future space missions. With their conversational and friendly tone, Andrew and Fred bring these complex topics to life, making it easy for listeners to grasp the significance of these discoveries. If you're passionate about space exploration and eager to stay up to date with the latest developments in planetary science, this episode of Space Nuts is a must-listen. In this episode, you will be able to: · Discover the fascinating story behind the Moon's age, unlocking secrets about the history of our solar system. · Explore the ongoing search for water ice on Mars and the potential implications for human colonization. · Learn how scientists are mapping the distribution of ice on Mars, providing crucial insights into the planet's past and future. · Get a sneak peek into the groundbreaking capabilities of the James Webb Space Telescope and how it will revolutionize our understanding of the universe. · Dive into the intriguing concept of travel time in space, including the challenges astronauts face and the exciting possibilities for future exploration. It's fascinating, isn't it, when you really think about it, that one thing in the whole history of the universe made us possible. - Andrew Dunkley The resources mentioned in this episode are: · Visit the University of Chicago and the Field Museum websites to learn more about the research conducted by the planetary scientists. · Explore the Apollo 17 mission and the samples of moon dust brought back to Earth in 1972. · Learn about zircon crystals and their significance in dating the age of the moon. · Discover more about atom probe tomography and its use in analyzing the crystals. · Research radiometric dating and its role in determining the age of the moon. · Consider the implications of the moon being 40 million years older than previously believed. · Reflect on the formation of the moon and its impact on Earth's rotation and the evolution of life. · Explore the concept of the moon being made mostly of Earth's material rather than Thea's. · Investigate the differences between the near side and far side of the moon and the tidal locking phenomenon. · Contemplate the hypothetical scenario of Earth's size if it had not been impacted by Thea. · · Visit the University of Chicago and the Field Museum websites to learn more about the research conducted by the planetary scientists. · Explore the Apollo 17 mission and the samples of moon dust brought back to Earth in 1972. · Learn about zircon crystals and their significance in dating the age of the moon. · Discover more about atom probe tomography and its use in analyzing the crystals. · Research radiometric dating and its role in determining the age of the moon. · Consider the implications of the moon being 40 million years older than previously believed. · Reflect on the formation of the moon and its impact on Earth's rotation and the evolution of life. · Explore the concept of the moon being made mostly of Earth's material rather than Thea's. · Investigate the differences between the near...

In the vast expanse of the universe, a mysterious cosmic symphony plays out, captivating our senses and challenging our understanding. But what if I told you that this symphony has a twist, an unexpected turn that leaves even the most seasoned astronomers in awe? Imagine, just when we thought we had it all figured out, we discovered that these enigmatic fast radio bursts are not just coming from one place, but from all corners of the cosmos. Brace yourselves, my fellow astrophysics enthusiasts, for the dispersion phenomenon in FRB radiation holds secrets that will unravel the very fabric of our understanding. And as we delve deeper into this cosmic riddle, prepare for a revelation that will leave your mind racing, wondering what lies beyond the reach of our current technology.

In this episode of the Space Nuts podcast, you'll join host Andrew Dunkley and astronomer Professor Fred Watson as they dive into an intriguing topic in the field of extragalactic astronomy. They discuss the fascinating dispersion phenomenon in fast radio burst (FRB) radiation and its implications for our understanding of the universe. You'll learn about the discovery of a distant FRB, FRB 202-2610 A, which turned out to be the most distant ever detected. The researchers also observed a dispersion phenomenon in the burst, where higher frequency waves arrived slightly before lower frequency waves. This discovery sheds light on the interaction between FRB radiation and electrons in the universe, providing valuable insights into the matter distribution in the cosmos. The conversation delves into the missing matter in the universe and the potential hiding places for this elusive substance. So, if you're an astrophysics student or researcher interested in extragalactic phenomena, this episode of Space Nuts is a must-listen. Get ready to expand your knowledge and explore the mysteries of the universe with Andrew and Fred.

In this episode, you will be able to: · Discover the fascinating world of distant fast radio bursts (FRBs) and unravel their mysterious origins. · Gain a deeper understanding of the dispersion phenomenon in FRB radiation, shedding light on how these signals travel through space. · Explore the mystery of missing matter in the universe and uncover the hidden secrets of our cosmic neighborhood. · Uncover the potential artifacts and errors that can occur in astronomical observations, ensuring the accuracy of your research and data. · Join the Space Nuts podcast as they delve into episode 376, where they unravel the wonders of the cosmos and share their contagious enthusiasm for astrophysics. The discovery of the dispersion phenomenon in fast radio bursts opens up a whole new world of possibilities for studying the structure of the universe. - Andrew Dunkley Understanding FRB Dispersion One crucial aspect of FRB research is comprehending the dispersion phenomenon, where high-frequency radio waves arrive slightly ahead of their lower-frequency counterparts. This compelling property, initially demonstrated by Jean-Pierre Macquart, shows that the dispersion of FRB radiation correlates with the distance covered. This novel insight not only deepens our grasp of FRBs but also elucidates the interaction between FRB radiation and electrons across the universe. The resources mentioned in this episode are: · Visit the ESO website (eso.org) and search for the article titled Astronomers Detect Most Distant Fast Radio Burst to Date to read more about the discovery. · Check out the Palomar Observatory website to learn more about the telescope and its history. · Follow Avi LERB, director of the Harvard Smithsonian Institute for Astronomy, for updates on his research and speculations about signals of artificial origin. · Keep an eye out for future studies and breakthroughs in the field of fast radio bursts to stay informed about the latest developments. · Explore the concept of the wow signal and its mysterious origins to satisfy your...

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Join us, your space-obsessed hosts, as we dive into mind-bending questions, uncover cosmic mysteries, and embark on an astronomical journey that challenges our understanding of the universe. In this episode, you will be able to: · Explore the captivating world of space with the Space Nuts podcast, where you'll uncover fascinating stories and insights from the experts. · Discover the mind-bending effects of gravity on time, as we delve into the intriguing concept of time dilation and how it shapes our understanding of the universe. · Unravel the mysteries of dark matter and its profound impact on the universe, as we dive into the research and theories behind this elusive cosmic substance. · Dive into the mesmerizing characteristics of carbon stars, as we uncover the unique properties and stunning beauty of these celestial objects that shine brightly in the night sky. · Embark on a journey through the fascinating world of orbital geometry and antimatter, and gain a deeper understanding of how these concepts shape our understanding of the universe and its intricacies. The universe is a puzzle waiting to be solved, with dark matter and dark energy as its greatest mysteries. Let's dive into the unknown and unravel the secrets of our cosmic existence. - Andrew Dunkley Exploring the captivating world of space Listeners dive into the captivating world of space in this mysterious and awe-inspiring discussion. We travel through the cosmos, uncovering profound truths and engaging new perspectives. These explorations help us reimagine our role in the universe and understand the vast expanses of space. The resources mentioned in this episode are: · Check out the article from Brookhaven National Laboratory titled Collisions of Light Produce Matter Antimatter from Pure Energy to learn more about the conversion of energy into mass. · Visit the Relativistic Heavy Iron Collider (RHIC) website to explore their research on particle collisions and the creation of matter from energetic photons. · If you're interested in the topic of dark matter and dark energy, delve deeper into the current understanding and theories by reading scientific literature and publications. · Expand your knowledge on the Big Bang and the early universe by exploring resources that explain the concept of time dilation and the potential for trillions of years to pass before the universe expanded. · Consider reading up on the theories and research surrounding the formation of galaxies, including the role of dark matter in galaxy rotation and the formation of spiral arms. · Learn more about the formation of solar systems and the potential impact of the absence of dark matter on their development by exploring scientific articles and books on the subject. · Explore the concept of galaxy clusters and the role of dark matter in their formation by reading scientific literature and research papers. · Consider researching alternative mechanisms for the coalescence of hydrogen and the formation of black holes, as dark matter

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Have you ever heard these myths about space? Prepare to have your mind blown as we debunk three popular misconceptions that will leave you questioning everything you thought you knew about the universe. Get ready for a mind-bending journey into the truth behind the mysteries of space on our next episode of Space Nuts podcast! In this episode, you will be able to: · Explore the fascinating world of asteroids as we delve into the latest sample analysis from asteroid Bennu, uncovering potential clues about the origins of our solar system and the building blocks of life. · Dive into the scientific study of water isotopes and uncover how analyzing their ratios can provide valuable insights into the history of our planet and its potential for supporting life. · Join us as we delve into the thrilling Ninth Planet theory, discussing the evidence and implications of the existence of a hidden world in our solar system, and how it could reshape our understanding of the cosmos. · Discover the latest advancements in lunar and Martian colonization as we explore the concept of living underground on the Moon and Mars, discussing the challenges and potential benefits of this innovative approach to space exploration and habitation. We're living in an era of the golden age of asteroid studies. We may well learn how we got here because of them. - Andrew Dunkley
The analysis of asteroid Bennu samples has been a key highlight in recent space science developments. Extracted by the Osiris Rex spacecraft, the samples show traces of carbon-containing compounds and water-bearing clays. The discovery of these elements, particularly in a carbonaceous asteroid like Bennu, is intriguing and could potentially offer vital insights into the origins of life. The resources mentioned in this episode are: · Visit NASA's website to learn more about the ongoing analysis of the Bennu sample. · Explore the Johnson Space Flight Center's website for updates on the testing of the sample. · Check out Osiris Rex's mission page to discover more about the spacecraft's journey and future missions. · Stay updated on the latest asteroid missions, including the Apophis mission, by following NASA's news releases. · Learn more about the Ryugu mission and compare the results with the Bennu sample by visiting the Japanese Space Agency's website. · Find out more about the Psyche mission and its orbital scan of a metallic asteroid by visiting NASA's mission page. · Keep an eye out for future discoveries and advancements in asteroid studies to gain a better understanding of our solar system's history and potential impact on life on Earth. · Explore the possibilities of finding answers to the origin of life and other intriguing aspects of asteroids by staying informed about ongoing research and analysis. · Support continued exploration and study of asteroids by following and engaging with organizations and scientists involved in these missions. · Consider the potential implications and importance of understanding asteroids in the context of space exploration and our place in the universe.

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Do you want to gain a deeper understanding of the groundbreaking Euclid telescope mission? Are you looking for a solution that will allow you to explore the fascinating world of space exploration and astronomy? Look no further! In this article, I will be revealing the key insights and information about the Euclid telescope mission, providing you with the knowledge and perspective you need to unravel the mysteries of the universe. Embark on this cosmic journey with me and discover the secrets that the Euclid telescope holds, unlocking a whole new level of understanding and appreciation for the vast expanse of space. In this episode, you will be able to: · Discover the fascinating setbacks and challenges faced by the Euclid telescope mission and how they were resolved through innovative software solutions. · Gain a deeper understanding of the upcoming Psyche mission by NASA and its significance in unraveling the mysteries of planetary formation. · Explore the intriguing world of dark photons and muons, and how they shape the fate of time and space in the universe. · Dive into the captivating story of Fred's trip to the UK and the Channel Islands, unraveling the hidden gems and experiences that await. · understand how a fine guidance sensor affected the Euclid telescope mission and the innovative software patch that resolved the issue, shedding light on the complexities of space exploration. Euclid is a telescope on a mission to map the sky, and even a small hiccup won't stop us from exploring the vast unknown. - Andrew Dunkley Innovative Software Patch for Euclid Telescope The solution to the Euclid telescope's problems came through a valuable tool - an innovative software patch. This fix, reminiscent of updates on everyday devices such as smartphones, was used to rectify the issues and get the mission back on track. This showcases the intersection between modern technology and space exploration, enabling continued research and breakthroughs amid potential roadblocks. The resources mentioned in this episode are: · Visit the website to learn more about the Psyche mission and stay updated on its launch. · Check out the Euclid telescope's website for updates on the FGS issue and the software patch. · Explore the Bo's segment on maximum entropy to gain a deeper understanding of the concept. · Listen to John's discussion on the early universe for fascinating insights into its origins. · Discover Al's insights on dark energy and its role in shaping the universe. · Stay tuned for future episodes of Space Nuts for more exciting space news and discussions.

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Hold on tight and prepare for an astronomical surprise that will leave you breathless. Brace yourself for a mind-bending twist in the world of gravitational wave detection and cosmic events. Get ready to witness a discovery so profound, it will shatter our understanding of the universe. But here's the catch: what if this groundbreaking revelation is not what we expect? Stay tuned to find out, as we embark on a cosmic journey that will challenge everything we thought we knew. In this episode, you will be able to: · Explore the groundbreaking advancements in gravitational wave detection and uncover the secrets of cosmic events. · Discover how a galaxy with a strong magnetic field can provide clues to the formation of stars and deepen our understanding of magnetic fields. · Uncover the mysterious Tharsis volcanic region on Mars and its potential role in the formation of water, shedding light on the geological factors that shaped the planet. · Understand the importance of polarization in astronomy and how it can be used as a powerful tool in observations, revealing hidden details about celestial objects. · Dive into the controversial realm of dark matter and modified Newtonian gravity, and explore alternative theories that challenge our current understanding of the universe. Imagine a future where we can detect a million neutron star mergers and hundreds of thousands of black hole collisions every year. The possibilities are mind-boggling. - Andrew Dunkley Tharsis Volcanic Region Connection Investigating the potential correlation between Martian volcanic activity and the Hellas impact could shed light on Mars's geological history and water formation. The link, though hypothetical, could provide astronomers valuable data on the effects of such impacts on seismic activities and the potential subsequent development of life-supporting conditions. This exploration further underscores the need for advanced research, expert consultations, and comprehensive scrutiny of existing theories to answer intricate questions about our universe. The resources mentioned in this episode are: · Check out the new gravitational wave detector, Cosmic Explorer, being developed by MIT. Learn more about its improved sensitivity and potential for detecting a million neutron star mergers and hundreds of thousands of black hole collisions. · Stay updated on the progress of the Cosmic Explorer project as they work towards building a 40-kilometer long laser interferometer for detecting gravitational waves. · Explore the possibilities of Lisa, the Laser Interferometer Space Antenna, a project by the European Space Agency that aims to place mirrors over 100 km apart in space to detect gravitational waves with even greater precision. · Consider the impact of gravitational wave astronomy, which offers a new window into the universe and has the potential to revolutionize our understanding of space and time. · Keep an eye out for future announcements regarding the location of the Cosmic Explorer detector and the funding and development of Lisa. · Stay informed about the latest advancements in gravitational wave research and the exciting discoveries that lie ahead. · Engage with the Space Nuts podcast to join the conversation and ask questions about gravitational waves and other space-related topics. · Subscribe to the Space Nuts podcast to receive regular updates and never miss an episode.

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Do you want to stay up to date with the latest discoveries in our solar system, particularly when it comes to potential new planets? Are you eager to uncover the mysteries hidden in the depths of the Kuiper Belt? If so, we have the solution you've been searching for. In this episode, Fred and I will be revealing the key findings and ongoing search efforts for an elusive celestial body, which could potentially be a new planet in the Kuiper Belt. By diving into this topic, you will gain a profound understanding of the quest to unravel the secrets of our cosmic neighbourhood and get closer to unveiling the existence of an undiscovered planetary world. In this episode, you will be able to: · Venture into an exciting chapter of space exploration identifying the potential new planet in the Kuiper Belt. · Peek at the nearest supernova through the advanced and prestigious James Webb Space Telescope. · Embark on the intriguing search mission for Planet Nine, interpreting its cosmic significance. If you're living in rubbish, you don't get the guernsey. - Andrew Dunkley Exploration of potential new planet: Amidst the vast expanse of the Kuiper Belt, researchers have detected signals suggesting a new planetary object. This fascinating discovery stems from patterns found in the orbits of hitherto-known objects within the belt. If confirmed, this celestial body could either be classified as a dwarf planet like Pluto, or a full-fledged planet, provided it has cleared the debris in its orbit, shifting our perception of the solar system. The resources mentioned in this episode are: · Visit the website of the National Astronomical Observatory of Japan (NAOJ) to learn more about their research on dwarf planets and the Kuiper Belt. · Check out the Astronomical Journal, one of the world's leading journals on astronomy, to read the study on the objects in the Kuiper Belt and their orbits. · Explore the Kuiper Belt and learn about the various objects within it, including dwarf planets, asteroids, and more. · Stay informed about the latest discoveries in astronomy by following news sources and publications that report on space exploration and research. · Keep an eye out for updates on the potential ninth planet and its discovery, as scientists continue to study the Kuiper Belt and search for its gravitational influence. · Consider becoming an amateur astronomer and join a community of stargazers who observe celestial objects like Jupiter and Saturn, potentially contributing to scientific discoveries. · Learn more about the James Webb Space Telescope and its capabilities in observing distant objects, including supernovae, by visiting its official website. · Stay updated on the latest news and findings from the James Webb Space Telescope, as it continues to provide new insights into the universe. · Explore the Large Magellanic Cloud and The key moments in this episode are:
00:00:00 - Introduction,
00:02:32 - Discovery of a Potential New Planet in the Kuiper Belt,
00:09:40 - The Definition of a Planet,
00:10:57 - Possibility of a New Planet Replacing Planet Nine,
00:11:23 - Size and Orbit of the Potential New Planet,
00:16:11 - "Supernova 1987 A Discovery",
00:20:46 - "Structure of Supernova Remnants",
00:23:19 - "Light Echoes and Supernova Explorations",
00:26:07 - "Amateur Observations of Supernova Remnants",
00:27:15 - "Neutron Star and Future Observations",
00:32:18 - "Space, Time, and the Hubble Flow",
00:34:24 - "Frozen Universe",
00:35:30 - "Listener Appreciation",
00:36:01 - "Listener Bets",
00:38:50 - "Understanding Light from the Early Universe",

Exploration of potential new...

Step into the enigmatic world of dark energy, black holes, and dark matter, where the universe's secrets lay hidden. Unraveling the mysteries, we stumbled upon a captivating theory: could black holes be the elusive source of dark energy? It was a revelation that sent our imaginations soaring, envisioning a cosmic web expanding at an accelerated pace. But as we dug deeper, the puzzle only grew more intricate, leaving us wondering: what lies within the spaces between these celestial threads? Brace yourself for an awe-inspiring journey, as we delve into the unknown and embrace the boundless fascination of our ever-evolving universe. In this episode, you will be able to: · Explore the puzzling sphere of dark energy, black holes, and dark matter, pushing the boundaries of your learning about space exploration. · Acknowledge the pervasive influence of gravity, developing a nuanced appreciation of its distant gravitational pull. · Ascertain the journey of elements within our solar system, refining your knowledge about the cosmic processes that shape them. · Discover the essence of the Boates Void and corresponding cosmic voids, expanding your perception of these endless expanses abundant in space. · Identify propitious places for potential human colonization, prompting a contemplation Gravity, something that we sort of understand in pockets. - Andrew Dunkley
Trace the origin of elements. Questions about where the elements of our solar system originated from are addressed, revealing to us how these elements have undergone cycles of creation and destruction in various astronomical processes. Tracing the origins of these elements not only paints a vibrant picture of our cosmic history, but also imparts a deeper understanding of the unique chemical makeup of our solar system and the universe beyond. The resources mentioned in this episode are: · Visit our website to access the gravity map from the GOCE mission and explore the variations in gravity across the globe. · Check out the NASA Grace mission website for more information and animations on gravitational anomalies and how they relate to climate and Earth's internal structure. · Learn about the recent experiment where scientists were able to stop a photon and explore the possibilities of light standing still. · Stay updated on the latest research and discoveries about black holes and their connection to the expansion of the universe. · If you're interested in the concept of dark energy and its potential sources, keep an eye out for more information on the role of black holes and their contribution to the phenomenon. · Dive into the fascinating topic of the cosmic web and its filaments by exploring research and theories on the expansion of space between galaxies and how it relates to the overall structure of the universe. · Subscribe to our channel or podcast to stay up to date on the latest episodes and discussions about space and astronomy. · Join our online community to connect with fellow space enthusiasts, ask questions, and engage in discussions about the mysteries of the universe. · Follow us on social media for daily updates, stunning visuals, and interesting articles about space exploration, astronomy

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Does the idea of unraveling the enigmatic origins of solar winds sound familiar? Have you been told to study textbooks or watch documentaries in hopes of understanding, only to be left feeling frustrated and confused? If so, you're not alone. The pain of seeking knowledge, but finding it elusive, can be disheartening. But fear not, because in this podcast episode, we have uncovered groundbreaking discoveries made by the Solar Orbiter, shedding light on the clandestine origins of solar winds. Prepare to finally quench your thirst for understanding and leave the frustration behind. In this episode, you will be able to: · Disentangle the mysteries surrounding the origins of solar winds, thanks to insightful revelations made by the Solar Orbiter. · Extract the coded data from Neptune's dark spot, assessed through state-of-the-art ground-based telescopes. · Draw distinctions between the captivating spots on Uranus and Neptune, revealing their probable causes and importance. · Unearth the cryptic behavior and structure of gas giants and the nature of tempestuous storms weaving within their atmospheres. · Paint a description of the intricate density of nebulae, gauging the feasibility of This is the only opportunity we've got, is to learn what our star is doing, because the other ones are all too far away to study at this level. - Andrew Dunkley Uncovering the origins of solar winds Recent discoveries by the NASA and ESA collaboration, the Solar Orbiter, may offer fresh insights to unravel the enigmatic origins of solar winds. Observations of tiny jets of material spurting from the Sun's surface hint at the potential driving forces behind these solar winds. Harnessing maximum knowledge on this subject is crucial as this phenomena significantly impacts our planet's outer atmospheric conditions. The resources mentioned in this episode are: · Visit bitesz.com for more information on the NASA collaboration and the solar orbiter. · Check out the article on bitesz.com for a detailed explanation of the observations made by the Solar Orbiter. · Learn more about the Great Red Spot on Jupiter and its significance by visiting bitesz.com. · Explore the work of Trevor Barry, an Australian observer of spots on Saturn, and his collaboration with NASA on the Cassini spacecraft mission on bitesz.com. · Discover the latest observations of spots on Neptune made by the European Southern Observatory's Very Large Telescope on Ceraparinal in northern Chile by visiting bitesz.com. · Find out more about the Muse instrument used to study Neptune's spots and its capabilities on bitesz.com. · Experience the stunning imagery and insights provided by the Hubble Space Telescope by visiting the official NASA website. · Stay updated on the latest discoveries and research in the field of astronomy by subscribing to the Space Nuts podcast. · Support the work of the European Southern Observatory and their groundbreaking research by donating to their organization. · Join the Space Nuts community and engage in discussions about space and astronomy on their official social media channels.

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Join us as we delve into the fascinating world of lunar geology and recent ground-penetrating radar discoveries on the Moon, uncovering layers of lava flows and potential insights into the Moon's volcanic history. But just as we start to unravel the mysteries, a shocking discovery on Mars threatens our very existence... What will happen next? Tune in to find out! In this episode, you will be able to: · Delve into the revelations made by ground-penetrating radar on the Moon, leading to new scientific breakthroughs. · Trek through the unchartered journey of the Chang'e 4 mission and its instrumental ground-penetrating radar. · Explore the eclipsed story of the Moon's volcanic activity and its consequences on lunar geology. · Venture into the heart of lunar mysteries where a potential core may exist. · Decode the impacts and threats cast by solar flares and solar storms on Earth's technological infrastructure. Version3: And joining us to talk about all of that is Professor Fred Watson, astronomer at large. Hello, Fred. - Andrew Dunkley In this episode, we explore the recent groundbreaking lunar discoveries made possible due to advances in ground-penetrating radar. Aided by China's Chang'e 4 mission, this tool has allowed scientists to delve deeper into the Moon's crust, providing valuable insights into its geological history and composition. These discoveries have shed light on the moon’s history of volcanic activity, and help illustrate its early history. The resources mentioned in this episode are: · Visit the bitesz.com website to read up on the Chang'e-4 mission and its ground penetrating radar discoveries on the Moon. · Check out the University of Aberdeen's website for more information on their involvement in the lunar geology research. · Follow NASA's updates on the Perseverance rover's findings and observations on Mars. · Explore the NASA website to learn more about the Mastcam and its capabilities in capturing stunning images of Mars. · Stay informed about space exploration news and discoveries by subscribing to the Space Nuts podcast. · Join the conversation and ask your own questions to be featured on an upcoming episode of Space Nuts. · Support the Space Nuts podcast by becoming a patron and gain access to exclusive content and perks. · Keep an eye out for future updates on the Chang'e-4 mission and the Perseverance rover's discoveries as they continue to explore the Moon and Mars.

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In the vast expanse of space, where triumph and discovery often reign, there are moments that grip our hearts with unexpected sorrow. Picture this: a Russian probe, destined for greatness, hurtling towards the moon's surface with anticipation and hope. But then, an unthinkable twist of fate sends it spiraling into an uncontrollable crash. The shockwaves of this failed mission reverberate through the cosmos, leaving us with unanswered questions and a deep longing to uncover the true cause. Join us as we delve into the tragic tale of the Russian probe Lunar 25, where every twist and turn leaves us yearning for closure. In this episode, you will be able to: · Uncover the facts behind the unsuccessful Russian Lunar 25 mission and delve into what went wrong. · Explore the bewildering world of dark energy and the revolutionary new ways it can be measured. · Contemplate potential end-of-the-world scenarios, evaluating their likelihood and impact. · Appreciate the crucial role of international partnerships in the face of space discovery and exploration. · Get an insider's look at future lunar and Mars missions, exploring the plans scientists, engineers, and astronauts are making today. List 2: We all do it. It's not a bad plan, actually. We'll watch with interest. - Andrew Dunkley Exploring End-of-the-World Scenarios In this episode, we will explore the different scenarios that could potentially result in the end-of-the-world scenario. From the rise of artificial intelligence to cosmic events, we touch on possibilities that, while unlikely, provide thought-provoking perspectives about our place in the universe. As we examine these scenarios, we aim to illuminate the fragile nature of existence and the awe-inspiring forces that surround us. The resources mentioned in this episode are: · Check out the Roscosmos website for more information on their lunar missions and future plans. · Learn more about the Lunar 24 mission, the last successful mission in the series, and its achievements. · Stay updated on the latest developments in space exploration by following Jonathan McDowell and his insights on all things space. · Discover the Chandrayaan-3 mission and its goals, including the planned rover exploration of the lunar south pole region. · Explore the concept of using helium-3 as a potential clean nuclear fuel for future energy needs. · Gain a deeper understanding of dark energy and its significance in the universe by reading up on current research and theories. · Keep an eye out for upcoming research papers and studies that delve into measuring dark energy, including the possible use of Andromeda as a tool for measurement. · Stay informed about the latest discoveries and advancements in the field of astronomy and space science by regularly tuning in to Space Nuts and similar podcasts or shows. · Engage with the space science community by joining online forums, attending conferences, or following social media and joining the Space Nuts Podcast group. · New! Follow Space Nuts on Tumblr for all the latest space and astronomy news. https://www.tumblr.com/blog/spacenutspod

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If you're feeling frustrated and discouraged by the lack of progress in understanding the impact of asteroids on Earth, despite your avid interest in astronomy and space exploration, then you are not alone! You may have been tirelessly scouring through scientific articles and documentaries, hoping to gain a deeper comprehension of the subject, only to be left with more questions than answers. Instead of the expected result of an enhanced understanding, you may find yourself overwhelmed by complex theories and conflicting interpretations, leaving you feeling lost and perplexed. In this episode, you will be able to: · Uncover the terrestrial tales told by asteroid impact craters, offering a glimpse into Earth's eventful past. · Unravel the evidence indicative of water on Martian landscape, kindling excitement for the existence of extra-terrestrial life. 'Something that's only 15, 20, maybe 30 km across can so disturb the atmosphere that you lose half the living organisms on the planet... Mind-boggling stuff.' - Andrew Dunkley
To delve into asteroid impact craters and their implications, we investigate the potential discovery of the largest impact crater. Located in Deniliquin region, New South Wales, Australia, its suspected existence highlights the phenomenal energy released during an asteroid impact. Profound understanding of these craters can provide insights into Earth's geological history and our planet's interaction with space bodies, enlightening us about potential threats and helping devise protective measures. The resources mentioned in this episode are: · Check out the article titled 'New Evidence Suggests the World's Largest Known Asteroid Impact Structure is Buried Deep in Southeast Australia' on The Conversation website for more information on the Deniliquin Impact Crater. · Visit the Australian Geographic website to read their article on the Deniliquin Impact Crater and learn more about this potential discovery. · Explore the Curiosity Rover's findings in Gale Crater on Mars, including the discovery of mud cracks and evidence of wet and dry cycles. · Stay updated on the latest news and discoveries from NASA's Mars missions, including the Perseverance Rover's exploration of the Jezero Crater. · Learn more about impact craters and their significance in understanding Earth's history and the formation of celestial bodies. · Consider supporting scientific research and exploration by donating to organizations like NASA or educational institutions involved in space studies. · Stay curious and engaged with the wonders of our universe by continuing to listen to Space Nuts for more fascinating discussions on space and astronomy.

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Does this sound familiar? You've spent countless nights gazing up at the stars, filled with wonder and curiosity about the mysteries of the universe. But despite all the time and effort you've put into researching, you still feel like you're missing something. You've been told to simply read books and watch documentaries, hoping to gain a deeper understanding, but it's left you feeling unsatisfied and longing for more. The pain of not getting the answers you seek is like a void in your knowledge, begging to be filled. In this episode, you will be able to: · Dive deep into the intriguing world of space science and astronomy, while unraveling the mysteries of the universe. · Absorb knowledge about the spectacular phenomena of supernovae and their implications on the cosmos. · Bask in the magnificent effects of black holes on celestial bodies. · Join in the exhilarating race of Mars exploration and the search for the elusive evidence of past life. · Venture into the enigmatic realm of dark matter and dark energy. · Embark on a journey through the groundbreaking research that's shaping the future of astrophysics. Supernovae are not things to be messed with, because they are so energetic, so much happening, and the radiation that they emit across the electromagnetic spectrum and in the particle domain as well, is pretty overwhelming. - Andrew Dunkley Dive into space science In this episode, we deep-dive into the vast universe of space science, tackling several intriguing questions from our listeners. Within these conversations, we shed light on phenomena such as supernovae and the potential effects they might have if they occur close to Earth. By exploring these celestial occurrences, we aim to foster a deeper understanding and appreciation for the mystifying universe we belong to.
#space #astronomy #science #news #podcast #spacenuts

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Do you want to uncover the secrets of ancient metalworking techniques and unravel the mysteries of ancient trade routes? Are you eager to gain a deeper understanding of our ancestors' ability to create remarkable artifacts? In this fascinating exploration, I will reveal the solution to achieving increased knowledge of ancient metalworking techniques and uncovering the intricate web of trade routes that spanned the ancient world. Get ready to unlock the secrets of the past and embark on a journey that will expand your understanding of human ingenuity and connectivity. In this episode, you will be able to: · Delve into how ancient societies utilized meteoritic iron in fashioning arrowheads. · Explore the fascinating findings unveiled by NASA's InSight mission to Mars. · Get a grip on the fast rotation of Mars and its complicated internal dynamics. · Discern the role meteoritic iron held in the evolution of ancient cultures. · Learn about complex topics in astronomy such as tired light and black holes, clarified for easy understanding. The discovery of this ancient arrowhead made from meteoritic iron reminds us of the ingenuity and resourcefulness of our ancestors, and the mysteries that still await us in the depths of history. - Andrew Dunkley
The episode also discusses NASA's InSight mission to Mars, which utilized a seismometer and a special tool, RISE, to study the planet's interior structure. These tools detected Mars quakes and measured the planet's rotation, adding to our understanding of Mars' internal mechanics. It depicts Mars' unique features such as the acceleration of its rotation and the potential non-spherical core, which prompts further investigation and discovery. The resources mentioned in this episode are: · Visit the bitesz.com website to read the full article about the Bronze Age arrowhead made of meteoritic iron. · Explore the Insight mission's findings and discoveries about the rotation of Mars on the NASA website. · Check out the NASA InSight Twitter account for updates and images from the mission. · Learn more about the Twunberg iron meteorite and its composition by conducting a search online. · Stay informed about the latest space news and discoveries by subscribing to the Space Nuts podcast on your favorite podcast platform. · Support the Space Nuts podcast by leaving a positive review and rating on Apple Podcasts or other podcast platforms. · Join the Space Nuts community by following the Space Nuts Facebook page and engaging in discussions with fellow space enthusiasts. · Consider making a donation to NASA or other space organizations to support future missions and research. · Share the Space Nuts podcast with friends and family who have an interest in astronomy and space science.

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Delving into the cosmic vastness, this episode brings to light the intriguing world of space exploration, primarily focusing on the enduring Voyager Two mission. Remaining operational for a staggering 46 years, the spacecraft epitomizes the human spirit's relentless pursuit of knowledge, defying its initial design to function merely for twelve years. A central theme is how these seemingly remote explorations have profound implications for planetary safety, exemplified by efforts to detect potential near-earth objects and asteroids. Discover the incredible world of space exploration with the awe-inspiring Voyager Two mission. Brace yourself for an unexpected twist that will leave you on the edge of your seat. Witness the heart-stopping moment when a minor error causes the spacecraft's antenna to shift away from Earth, setting off a chain of events with far-reaching consequences. Prepare to be captivated as you wait with baited breath for the spacecraft to reset its parameters, leaving you wondering...what happens next? In this episode, you will be able to: · Dive into the captivating world of space exploration, focusing on the wonders of the Voyager Two mission. · Unearth the mysteries of the cosmos through the lens of the Euclid telescope. · Discover the cutting-edge technology redefining our ability to detect and monitor asteroids. · Investigate the intriguing connections between the age of the universe, satellites, and subsurface oceans on moons. · Grapple with the perplexing implications of the Uncertainty Principle in the realm of physics.
'What a triumph for the mission planners and engineers who built Voyager Two! It's been communicating with us for 46 years, and we think we've got at least another decade of communications with it.- Andrew Dunkley
The resources mentioned in this episode are: · Check out the latest news on Voyager Two's snafu and potential rescue efforts. · Learn more about the Tidbinbilla Deep Space Network in Canberra and its role in communicating with Voyager Two. · Stay updated on the progress of Voyager Two's antenna realignment in October. · Explore the Euclid telescope and its mission to study dark matter and dark energy. · Discover the stunning images captured by Euclid and get a glimpse of the universe in visible light. · Keep an eye out for future updates on Euclid's discoveries and findings. · Learn about the algorithm being tested to detect potentially hazardous asteroids and near Earth objects. · Stay informed about the upcoming commissioning of the Vera C. Rubin Observatory and its potential for discovering transient phenomena, including asteroids. · Follow the progress of the algorithm's testing and its effectiveness in identifying asteroids. · Watch the video tutorial on how to use the algorithm and contribute to the search for potentially hazardous asteroids. · The key moments in this episode are:
00:00:00 - Introduction,
00:03:00 - Voyager Two Mishap,
00:07:06 - Remarkable Voyager Two,
00:10:02 - Conclusion and Future Communications,
00:11:17 - Closing Remarks,
00:15:37 - Introduction,
00:16:23 - Testing an Algorithm,
00:18:27 - Transient Phenomena,
00:20:00 - Potentially Hazardous Asteroids,
00:22:11 - The Ruben Telescope,
00:32:23 - How Satellites Move and Cover Distance,
00:35:06 - The Age of the Universe,
00:38:27 - Saltwater Oceans on Enceladus and Europa,
00:39:01 - Origins of Salt in Oceans,
00:49:21 - The Uncertainty Principle,
00:49:35 - Curveballs and Questions,
00:49:48 - Keep the Questions Coming,
00:50:09 - Increased Website Traffic,
00:50:37 - Farewell and Thanks,

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Picture this: a meteorite found in the vast Sahara Desert, not just any ordinary space rock, but one with a composition eerily similar to our own planet. The plot thickens as scientists debate its origins, some proposing volcanic eruptions, while others suggest cataclysmic asteroid impacts. But here's the twist: this meteorite may have been flung from Earth itself, soaring through the cosmos for thousands of years before making its triumphant return. The question remains: how did a piece of Earth escape our gravitational pull and embark on an interstellar journey? In this episode, you will be able to: · Disclose the captivating find of a meteorite in the Sahara Desert, believed to originate from Earth itself. · Delve into the enigmatic world of dark matter stars, considering their profound implications in our grasp of dark matter. · Scrutinize the fascinating interaction between elusive dark matter and the common matter of our everyday life. · Ponder on the profound concepts of time, consciousness, and speculation of the afterlife. · Ascertain the influence of powerful bombs on altering the deadly path of asteroids in the galaxy. The universe is full of mysteries waiting to be discovered, and the James Webb Space Telescope is helping us unveil them. - Andrew Dunkley The resources mentioned in this episode are: · Visit the Space Nuts website to read more about the meteorite discovery in the Sahara Desert. · Check out the Space Nuts website for updates and further analysis on the potential existence of dark matter stars. · Follow the Space Nuts social media channels (Facebook, YouTube, and Rumble) to join the live studio audience and interact with the hosts and other listeners. · Explore the James Webb Space Telescope's official website for more information on its latest discoveries and missions. · Visit the Space Nuts website for additional episodes and content related to astronomy and space exploration. · Subscribe to the Space Nuts podcast on your preferred podcast platform to never miss an episode. · Support the Space Nuts podcast by leaving a positive review and rating on your chosen podcast platform. · Stay updated on the latest space news and discoveries by subscribing to the Space Nuts newsletter on their website. · Consider making a donation to support the ongoing production and research efforts of the Space Nuts podcast. · Share the Space Nuts podcast with your friends and family who are interested in astronomy and space science.

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Unearthing rivers on Mars and Titan has ignited a fire within me, a flame fueled by the tantalizing possibility of life in the most unlikely of places. The shocking discovery of these rivers, once teeming with potential, has shattered our perception of barren landscapes and opened a door to the infinite possibilities of our vast universe. Join me on this extraordinary journey as we delve deeper into the secrets these rivers hold, and uncover the unexpected twist that may forever change our understanding of life beyond Earth. In this episode, you will be able to: · Discover the intriguing mysteries of Martian and Titan's river systems and their potential to host life. · Uncover the enduring nature and evolutionary potential of Mars' ancient rivers. · Delve into detailed comparisons of riveting river systems between Mars and Titan. · Gain valuable insights into cutting-edge computer modelling techniques applied in planetary studies. · Become privy to groundbreaking insights on the age of the Universe and Dr. Gupta's revolutionary model. List 2: · Explore the captivating facets of river systems on foreign worlds such as Mars and Titan and their wondrous possibility of harboring life. · Dive into the secrets of the longevity and evolutionary scope of Martian fluvial dynamics. · Understand how Mars and Titan's river systems mimic but also diverge from each other in fascinating ways. · Embrace the future of planetary studies with innovative computer modelling techniques. · Absorb new, stimulating perspectives on the age-old question of our Universe's age and Dr. Gupta's provocative hypothesis. List 3: · Unravel the enticing enigma of rivers on Mars and Titan, and the exciting prospect of them fostering life. · Investigate the tale of endurance and evolution woven by the rivers that once cut through the Martian landscape. · Grasp the similarities and contrasts of Mars and Titan's riverine terrains. · Upgrade your knowledge of space exploration with the power of advanced computer models. · Embrace the awe-inspiring theories on the Universe's age and be among the first to comprehend Dr. Gupta's enlightening proposal. The key moments in this episode are:
00:00:00 - Introduction,
00:02:27 - Rivers on Mars and the Potential for Life,
00:06:12 - River Deltas and the Perseverance Rover,
00:08:16 - Rivers on Titan and Sediment Flow,
00:11:57 - Possibility of Life in Extreme Environments,
00:17:22 - "The Tension between Galaxies and the Age of the Universe",
00:18:58 - "A New Model for the Age of the Universe",
00:22:24 - "The Tired Light Theory and Expanding Universe",
00:26:59 - "Challenging the Current Cosmological Model",
00:35:48 - "The Galactic Archaeology and Two Disks of Our Galaxy",
00:38:09 - "Tilt of Our Solar System",
00:39:14 - "Tilt of Other Solar Systems",
00:41:32 - "Fred Watson's Musical Inspirations",
00:45:30 - "Safety of Using Black Holes in Gravity Assist",

"The potential for life beyond Earth is immense, as evidenced by the existence of rivers on Mars and Titan. It's a reminder of how vast and varied our universe truly is."- Andrew Dunkley

#astronomy #space #science #news #podcast #spacenuts

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Discover the unexpected twist that ignited our curiosity, the twist that pushed the boundaries of our understanding of the cosmos. Rusty from Donnybrook and Russ from Stylebridge brought forth questions that transformed our podcast into an intergalactic journey, delving into the mysteries of the Milky Way's metallicity profile and the mind-bending concept of our universe residing within a black hole. As we explored these audacious ideas, we found ourselves diving deeper into the enigma of space, forging a bond with our listeners who share our passion for astrobiology. But little did we know, these questions were just the beginning - a beginning that would unravel even more captivating mysteries. Stay tuned to uncover the next twist in this cosmic tale. In this episode, you will be able to: · Get the lowdown on how Metallicity is intertwined with the presence of complex life across our galaxy. · Journey through the awe-inspiring, enigmatic universe of black holes, detailing their size and properties. · Walk through the cosmic annals as you perceive past events due to the speed of light. · Examine the Big Bang, divulging the key contribution of population three stars during this pivotal cosmic event. · Get to grips with the perplexing concepts of Redshift, time dilation, and the paths of space objects. Time Travel in Astronomy: How the Universe Reveals Its Past I think he's actually right...I think he's on the right track, because whilst the formal definition of a black hole...is a point in space with infinite density...that suggests that if its density is infinite, that its dimensions are zero...But I'm thinking that physicists know that 'physics'...never works that way. You can't have something with no volume and no dimensions and yet still exert a gravitational force The resources mentioned in this episode are: · Check out the integrated metallicity profile of the Milky Way published in Nature Astronomy. · Learn more about the metallicity of stars and its importance in the search for life on other planets. · Explore the concept of living inside a giant black hole and the theories surrounding it. · Find out if the entire universe could be a quantum object and what that means for our understanding of reality. · Discover the different sizes of black holes, including supermassive and intermediate black holes. · Learn about the formal definition of a black hole and its dimensions. · Watch the video on YouTube for a visual explanation of black holes. · Consider the implications of black holes on our understanding of physics and the laws of the universe. · Dive deeper into the topic of black holes by reading scientific articles and books on the subject. · Stay tuned for future episodes of the show for more fascinating discussions and questions. The Size of Black Holes Alright, time for a real brain-boggler: Do black holes have a size? Now, this might sound like a straightforward question, but in reality, it's anything but. The nature and properties of black holes are one of the greatest mysteries of our universe. In technical terms, black holes are described as a "singularity," which implies zero dimensions. But could there be more to it than that? Black holes became an engaging topic when Andrew and Fred touched upon how their "size" led to several theories and ideas. Both agreed that the definition and understanding of black holes are fluid, leaving a lot of room for scientific debate. Fred even hinted at the possibility of revisiting the no hair theorem, which describes the limited number of detectable attributes of a black hole. So, despite the name, black holes are anything but an empty subject! Apogee and Earth's Climate Now, let's talk about something a touch closer to home - the Earth's climate. You might have heard the term "apeelian," which refers to when our blue planet is furthest from the Sun. It's a regular, annual occurrence, but does it have a significant effect on our climate? From a layman's perspective, it...

Have you ever felt the rush of excitement when stumbling upon a hidden gem? Well, let me take you on a journey where the unexpected becomes the norm. Picture this: a space buff lost in deep thoughts about the upcoming Artemis mission to the Moon. The question of power generation in the shadowy craters of the lunar south pole lingers. But then, like a bolt of lightning, a company named Maxar appears on the horizon with their ingenious solution - Lightbender. Mirrors and sunlight intertwine to illuminate the darkness. But what if this lunar enlightenment holds even more secrets? Stay tuned to uncover a twist that will leave you craving for more. In this episode, you will be able to: · Unearth the immense difficulty behind power creation on the Moon and its crucial implications. · Learn about the innovative path Lightbender is paving for electricity generation in the Moon's darkest regions. · Understand the subtle yet influential relationship between Lightbender and heliostat technology. · Imagine broader possibilities thanks to Lightbender, as its potential extends much farther than just the Moon. · Recognize the importance of accessing and harnessing lunar water reserves, a game-changer in furthering space exploration. List 3 - The aim is to have continuous habitation on the Moon. It's a stepping stone to traveling beyond the Moon to other parts of the solar system. This is our future, and it's a future we should all be excited about. - Andrew Dunkley The resources mentioned in this episode are: · Visit Maxar's website to learn more about their Lightbender technology for providing beams of sunlight on the Moon. · Check out NASA's Artemis Project website for updates and information on their mission to send human beings back to the Moon. · Explore the concept of heliostats and how they are used for solar observations. · Discover the Anglo Australian Telescope and its state-of-the-art mirror technology for maximum reflectivity. · Consider installing solar panels on your own roof to take advantage of renewable energy. · Stay updated on the latest news and developments in space exploration by following Space Nuts with Andrew Dunkley and Professor Fred Watson. Power Challenges for Moon Missions To have a permanent human presence on the Moon, we can't sidestep the hurdle of generating power in the shadowed areas. Often, potential resources for living lie in such areas, for instance, the water reserves in the deep, often shadowed, craters near the poles. The tricky part is that the science we have today, solar-generated power, needs light. So, getting power to these dark, resourceful spots is a challenge that needs an intelligent solution. That's where something like Lightbender steps in - a technology that has the potential to crack this problem wide open. From Andrew's perspective, he notes that the topic is not just about exploration; it's a matter of survival in an environment that's vastly different from Earth. He compares this situation to the first astronauts who had to deal with the lack of power during moon night, which lasts about 14 Earth days. Understanding these challenges is essential to ensure the successful future of lunar missions. Heliostat and Sun Observations Lightbender isn't born entirely out of nowhere. Fred explained that it draws inspiration from a 19th-century astronomical idea of the heliostat. The heliostat also uses a two-mirror system to keep a steady image of the sun for solar observations. The primary difference lies in the autonomous control and AI of Lightbender to direct the reflected sunlight accurately. Paul was fascinated with the historical link between heliostats and the cutting-edge technology of Lightbender. Delving into the past, it made him appreciate the leaps and bounds humanity has made in technology and the new challenges it can overcome with novel adaptations of age-old inventions. Heliostat and Sun Observations Lightbender isn't born entirely out of nowhere. Fred explained that it...

If you're feeling frustrated and overwhelmed by the lack of tangible evidence for Planet Nine despite your endless research and late-night discussions, then you are not alone! In this episode, you will be able to: · Traverse the peculiarities of the hypothesized Planet Nine and comprehend its potential impacts on our solar system. · Explore the advanced capabilities of the Vera Rubin Telescope and how it's set to transform the search for elusive celestial bodies. · Discern the urgent need for a structured framework in the burgeoning industry of space tourism and its potential implications. · Unwrap the fundamentals of how atoms emit and absorb light, which is crucial in our interpretation of astronomical observations. · Dissolve any misconceptions about the size of the universe, identifying the difference between the age of the universe and the distance light has traveled. List 2: I want to believe it, I really do. I hope they've found it. - Andrew Dunkley The resources mentioned in this episode are: · Visit theconversation.com to read the article about the potential existence of Planet Nine in our solar system. · Check out the Vera C. Rubin Telescope (formerly LSST) when it starts observations next year to see if it can find evidence of Planet Nine. · Learn more about the Seniors 14 object that fell into the Pacific Ocean in 2014 and its potential connection to Planet Nine. · Stay updated on the ongoing search for Planet Nine by following the observation campaign currently underway. · Consider supporting the International Association for the Advancement of Space Safety to help promote safety in space tourism and exploration. · Explore the possibility of space tourism and the potential risks involved before making any decisions. · Follow the progress of space tourism companies such as Virgin Galactic and Blue Origin to stay informed about the latest developments. · Keep an eye out for future space tourism opportunities that prioritize safety and adhere to strict regulations. · Educate yourself about the risks and challenges of space travel and make informed decisions if and when the opportunity arises. · Support advancements in space technology and exploration by staying engaged and advocating for responsible and safe practices. "Exploring the Outer Edges of the Solar System" So, you're probably wondering about what's out there, right at the edge of our very own Solar System? Well, it's truly a fascinating realm that's still full of mysteries and discoveries to be made. This uncharted frontier, deemed as the 'outer edges', is largely dominated by frozen volatile substances like water, methane, and ammonia. These celestial bodies, often referred to as Trans-Neptunian Objects (TNOs), are believed to have remained untouched since the beginning of our Solar System, making them incredibly valuable to astronomers as they piece together the cosmic puzzle. Now, Andrew Dunkley delves into this very topic during the podcast. His curious mind bubbles over with questions and musings, all tinged with a sense of awe and wonder for the unknown. He draws attention to the curious alignment of some TNOs - suggestive of a possible unseen planetary body nicknamed 'Planet Nine.' Despite the inconclusive evidence and difficult prospect of direct observation, Andrew's excitement is infectious, igniting a curiosity that makes even the farthest reaches of our Solar System seem tantalizingly within reach. "Emission Lines and Spectroscopy" Ever gazed at a sodium vapor streetlight and wondered why it shines so orange? Or pondered why certain colors 'pop' in the spectrum of a star? The concept of emission lines and spectroscopy has the answers. This field of astrophysics uses the spectral properties of light to determine the chemical composition and physical properties of celestial objects. It's a bit like unlocking the star's 'identity card' through the visible and invisible light it emits. Not only does this add an analytical edge to stargazing, but...

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In this episode, you will be able to: · Uncover fascinating facts about the cosmos with the Space Nuts podcast. · Understand how groundwater pumping can affect Earth's rotational poles. · Discover the intriguing connection between secondary cosmic radiation and earthquakes. · Explore the concept of cosmic rain and its potential to provide Earth with extra water. · Dive into discussions about visiting intriguing celestial bodies like Mars, Enceladus, Europa, and Alpha Centauri. We learn things about the universe by examining the Earth. - Professor Fred Watson. The resources mentioned in this episode are: · Visit the website for the Daily News about planet Earth to read more about the impact of groundwater usage on the Earth's rotational poles. · Learn more about the Credo project and their findings on the correlation between cosmic radiation and earthquakes by visiting the Institute of Nuclear Physics of the Polish Academy of Sciences website. · Consider donating to organizations that work to support research and initiatives aimed at understanding and mitigating the impact of human activities on the Earth's environment and ecosystems. · Take action to reduce your own carbon footprint by making small changes in your daily habits, such as using reusable bags and containers, reducing energy consumption, and supporting sustainable agriculture and food production practices. · Educate yourself and others about environmental issues and the importance of preserving the Earth's natural resources for future generations. Share what you learn with friends, family, and your community to raise awareness and inspire positive change. Dream Travel Destinations The universe offers an endless array of extraordinary destinations to explore, and the podcast hosts were asked to divulge their dream travel destinations within the solar system and beyond. Fascinating celestial bodies with unique environments can spark the imagination and inspire dreams of expanded cosmic exploration. Andrew Dunkley shared his desire to visit Mars as soon as possible, as well as venturing to the south pole of Enceladus. Professor Fred Watson, on the other hand, would want to travel back in time to experience Mars when it was warm, wet, and potentially teeming with life over 3.8 billion years ago. Watson also expressed interest in visiting Europa, where ice geysers and a potential subsurface ocean offer captivating prospects for exploration. Their contrasting and exciting answers invite listeners to ponder their own celestial dream destinations and emphasize the boundless intrigue that our universe holds. Relationship between Cosmic Radiation and Earthquakes In this fascinating segment, the correlation between secondary cosmic radiation and the intensity of earthquakes is explored. While the study from the Polish Academy of Sciences suggests that there is a connection between these two phenomena, it's essential to note that cosmic rays do not directly cause earthquakes. Instead, changes in the Earth's magnetic field due to disturbances in the planet's core allow more cosmic radiation to penetrate, which might enhance the effect of an earthquake. This incredible connection reveals how various elements in the universe can be interconnected and demonstrates once again the mysterious nature of our world and the cosmos. Andrew Dunkley and Professor Fred Watson delve into this phenomenon and clarify that the study focused on the correlation between the changes in the magnetic field and the movement of particles in primary cosmic radiation. They discuss how these alterations are dependent on the dynamics of disturbances within the Earth, which in turn affects the magnetic field. This conversation showcases the complexities of the Earth's magnetic field...

In this episode, you will be able to: · Explore the captivating world of astronomy and deep space ventures. · Unravel the enigma of the galaxy's swiftest stars and binary system marvels. · Get acquainted with space debris issues and Astroscale's groundbreaking Elsa tug. · Investigate the unique phenomena of hybrid eclipses and satellite retirement plans. · Benefit from intriguing listener inquiries about asteroids, the Great Attractor, and light information. The more we learn, the more we realize just how much we don't know. - Andrew Dunkley The resources mentioned in this episode are: · Visit the website phys.org for more information on the topic. · Check out the company Astroscale for their reusable robotic tug called Elsa. · Learn more about the Gaia spacecraft and its ability to measure positions of stars accurately. · Look up J1235 and J927 for more information on the record-breaking stars. · Research more on the topic of space junk and its impact on space travel and the environment. The Number of Active Satellites and the Importance of End-of-Life Strategies In today's space-dominated world, there are approximately 10,000 satellites orbiting the Earth, with about 2,200 of them being classified as defunct. It's crucial that satellites undergo end-of-life strategies to ensure they don't contribute to the growing issue of space debris. While larger satellites can self-destruct, smaller ones and other debris pose a more significant threat. During the episode, Fred and Andrew contextualize the sheer number of active satellites in orbit, which sits at around 7,700. They discuss various proposed solutions for dealing with space debris, such as harpoons and nets, while noting the distinct ability of Astroscale's Elsa to perform multiple missions. The hosts also emphasize the importance of enforcing end-of-life strategies on all satellites today, ensuring that future launches minimize the chance of adding to the space debris dilemma. Potential Solution to Space Junk Space junk has long been a concern for the orbiting and future plan for satellites, and that's why creative and innovative solutions are needed to maintain a safe and efficient space environment for the foreseeable future. One particularly promising approach involves using a ground-based laser that could safely nudge satellites out of orbit, helping to prevent the accumulation of space debris over time. In their conversation, Dunkley and Watson touched on this intriguing technology as a potential solution to space junk. They explore the possibility of using laser technology as a non-destructive means of pushing satellites out of orbit. Additionally, they discuss the importance of inspiring the next generation to pursue careers in science and technology, with programs like Girls in Aviation Day, Einstein First, and Quantum Girls, all aiming to get young people engaged in fields like quantum physics and relativity. Astroscale's Robotic Tug to Deal with Defunct Satellites A Japanese company, Astroscale, is working on a unique and reusable robotic tug named Elsa, designed to alleviate space debris by focusing on defunct satellites. The robotic tug uses a series of rendezvous, retrograde, burn, and repeat patterns as a way of removing dead satellites from orbit. Astroscale has already attracted funding from the UK and European space agencies and has even successfully tested a prototype of their innovative tug. During their discussion, Andrew and Fred delve deeper into how Astroscale's Elsa plans to target around 2,200 defunct satellites in orbit, many of which are still intact and contribute to the growing pollution in Earth's atmosphere. While they acknowledge the importance of end-of-life strategies for satellites and the awareness surrounding space debris, they express some concern regarding the naming conventions of such technologies, such as Elsa and Starlink, playfully wondering if there is some hidden meaning behind them.

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In this episode of the Space Nuts podcast, Professor Fred Watson and I answer the most pressing astronomy and space science questions from our listeners. From the role of moons in creating tides to the speed of light, we explore the vast mysteries of the universe. But one listener's hypothetical scenario involving black holes has us stumped. Tune in to find out why. As a space enthusiast, I was excited to listen to the latest episode of the Space Nuts podcast, where host Andrew Dunkley and Professor Fred Watson answered a variety of astronomy and space science questions from their curious listeners. Learn about the properties of dark matter and dark energy and how they affect the universe's expansion. Additionally, the hosts discussed the connection between time and space and how they both play a crucial role in our understanding of cosmology. Moreover, listen to their explanations about tides, speed of spacecraft, and the effects of tumbling in space. Recommended as a podcast that is engaging and informative, and highly recommended to anyone seeking a deep understanding of astronomy and space science. In this episode, you will be able to: · Ponder the mysterious influence of dark matter and dark energy throughout the cosmos. · Investigate how space and time converge in the fascinating realm of space-time. · Scrutinize factors affecting spacecraft velocity and their ability to remain unseen. · Learn about the significant role played by moons and tidal forces in sustaining life on habitable worlds. The resources mentioned in this episode are: · Check out our Patreon page to support the show and get access to exclusive content. · Visit our website to listen to past episodes and browse our merchandise. · Follow us on social media for updates and behind-the-scenes content. · Leave us a review on your podcast platform of choice to help others discover the show. · Sign up for our newsletter to stay up-to-date on all things Space Nuts. · Consider donating to organizations that support space exploration and research, such as the Planetary Society or the International Dark-Sky Association.

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In this episode of Space Nuts, we take a look at the geysers on Enceladus. The James Webb Space Telescope has had another look at them after they've been previously seen elsewhere, and they've found out a bit more about them. And it's amazing. Also, a star that may not be a normal star. This one could be a dark matter star as a matter of fact. We get stuck into that. And we follow up on a couple of things that came up in the last program. And we will be looking at a white dwarf age issue, according to Rusty. And Jeff is asking about what the view would be like from inside a black hole, if we could possibly get inside one. Tunnel vision at the very least, I imagine. That's all coming up in this edition of Space Nuts. Astronomy, Science, Space, and Stuff. Space Nuts Episode 354 with Professor Fred Watson & Andrew Dunkley Download from your favorite podcast distributor or visit our website at www.spacenuts.io For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen
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#space #astronomy #science #news #podcast #spacenuts

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In this episode of the Space Nuts podcast, I discuss the recent discovery of 62 new moons orbiting Saturn using a telescope. As a space enthusiast, I am excited to learn about this fascinating discovery, which brings the total known moons around Saturn to 145, surpassing Jupiter's 95 moons. I am intrigued by the method used to discover the small satellites, as the cameras on spacecraft Cassini were not capable of identifying them. Professor Fred Watson explains that the distinction between what constitutes a moon is based on its size, composition and orbit. This episode provides an engaging and educational discussion on the latest space science news and developments. As a host, I recommend this episode to anyone who wants to stay updated on recent discoveries.
In this episode, you will be able to:
· Explore the impressive discovery of 62 new moons around Saturn through telescopic advancements. · Delve into the awe-inspiring gamma-ray burst, the universe's largest recorded explosion.
· Gain insights on asteroid protection methods like gravity tractors and kinetic impactors.
· Discuss the inaccuracies in Martian agriculture depicted in popular movies.
· Contemplate the ethical dilemmas and potential hazards of utilizing nuclear weapons in outer space.
#astronomy #space #science #news #spacetime #podcast

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Space Nuts #352
In this episode of Space Nuts, we explore a groundbreaking discovery about how Earth cleans up its own atmosphere, and how it could change the game in mitigating air pollution. But when our host jumps to the wrong planet, we discover stunning new images of Uranus taken by the James Webb Space Telescope and reveal some incredible insights about this mysterious planet. However, our excitement is cut short with a shocking revelation that leaves us wondering, will we ever go back?

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If you're feeling frustrated and disheartened because despite your constant efforts to understand the latest developments in quantum research and wormholes, you still feel light years away from achieving the breakthrough you crave, then you are not alone! In this episode, you will be able to: Explore the intriguing world of wormholes and recent quantum discoveries in outer space research. Understand the crucial role that powerful R25 engines play in launching rockets into space. Connect the dots between the enigmatic forces of black holes and dark energy. Marvel at the Huntsman Telescope's ability to obtain highly-sensitive images from outer space. Differentiate between theoretical and physical wormholes while appreciating their presence in imaginative science-fiction narratives.
The resources mentioned in this episode are: Check out NASA's website for more information on the Space Launch System and upcoming missions. Follow Aerojet Rocketdyne on social media to stay updated on their work and advancements in rocket engine technology. Consider supporting organizations and initiatives that promote and fund research in quantum computing and physics. Explore science fiction books and media that feature wormholes and other theoretical physics concepts. Learn more about the history and development of quantum mechanics and general relativity through online courses or tutorials. Support space exploration and research by advocating for government funding and supporting private companies like SpaceX.
#space #astronomy #science #news #podcast #wormholes #spacenuts

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The Sun's Wobble: Unraveling the Mystery of Solar Movement
If you're feeling frustrated and disheartened by reading countless articles and watching endless videos about black holes without gaining a deeper understanding of human proximity to them, then you are not alone!
In this episode, you will be able to: Unravel the enigmatic influence of black holes on human lives and cosmic occurrences. Gain insight into the formation dynamics of rocky planets and the role gas plays in space. Understand the role of dark energy in driving the universe to expand incessantly. Scrutinize the realism of movie asteroid fields in contrast to real-world examples. Delve into ongoing research into the fabric of spacetime and the pursuit of a quantum gravity theory.
'One day we might be able to get out there and get close to one of these things'. - Andrew Dunkley

The resources mentioned in this episode are: Learn more about the Hubble Law to understand the relationship between the velocity of objects and their distance.
Check out the website of the Chandra X-ray Observatory to view stunning images of the universe. Visit the website of the European Space Agency to learn more about their missions and research. Check out the website of the Subaru Telescope to learn more about their observations of the universe. Check out the website of the Keck Observatory to learn more about their ground-based observations of the universe.
For more from the Space Nuts team plus details on how you can help support the show and share in the rewards, visit our website at www.spacenuts.io or our HQ at www.bitesz.com
#astronomy #space #science #podcast

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Get ready to explore a 10 billion year old mystery! A closely bound duo of energetic quasars, the hallmark of a pair of merging galaxies, have been discovered when the Universe was only 3 billion years old. What secrets do these quasars hold and why have they lasted so long? Join us as we unravel this age-old mystery and uncover the secrets of the cosmos. But be warned, the answers may not be what you expect...
In this episode, you will be able to:
*Uncover the fascinating story behind the discovery of dual quasars from a 10-billion-year-old galaxy merger
*Delve into the enigmatic Lyman alpha radiation bar of light observed on Saturn
*Explore the environmental impact and challenges faced by the groundbreaking Square Kilometre Array radio telescope
*Understand the science of infrared radiation, heat transmission, and black body light emissions *Consider the odds of life existing on Enceladus and other high-pressure ice moons

'Cosmic Noon is one of the hot topics because it's that period when the Universe was just a few billion years old, when star formation was at its peak.' - Fred Watson

The resources mentioned in this episode are:
Visit the Noirlab.edu website to explore the press release about dual quasars blaze bright and learn more about this discovery.
Visit the NSF's Optical and Infrared observatories website to learn more about their ground and space-based telescopes, including the Gemini North Telescope in Hawaii.
Read Fred's book, Cosmic Chronicles or Exploding Stars and Invisible Planets (as it is titled in the United States) for more information on Saturn and other astronomical topics.
Keep an eye out for Andrew's upcoming audio edition of Parallax and check out his other books as well.
For details visit www.spacenutspodcast.com/shop
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In this episode, you will be able to: Uncover the potential for water sources on Mars due to newly discovered glacial remains. Dive into the intricacies of ultra-massive black holes and their impact on gravitational lensing and event horizons. Grasp the complex issue of time travel and how Earth's motion affects pinpointing landing locations. Explore the limitations of telescopes and active sensors in detecting objects beyond our solar system. Ponder the potential of the singularity, faster-than-light travel, and Cherenkov radiation in expanding our universe exploration. The resources mentioned in this episode are: Visit the phys.org website to read more about the discovery of glacial remains on Mars and the potential implications for future exploration. Learn more about gravitational lensing and how it can be used to measure the mass of celestial objects, such as ultra-massive black holes. Explore the Abell 1201 cluster and its ultra-massive black hole, which is 33 billion times more massive than the sun. Compare the ultra-massive black hole at the center of the Abell 1201 cluster to other known black holes, including the supermassive black hole at the center of our own galaxy. Research the different methods used to measure the mass of black holes, such as observing the velocity of material swirling around in their accretion disks.

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In this episode, you will be able to: Unravel the intriguing results of the Chang'e 5 mission and its implications on lunar water resources. Investigate the peculiar characteristics of 'Oumuamua and its potential hydrogen propulsion mechanism. Mitigate Earth's asteroid threats by understanding the process of detecting perilous objects. Analyze the consequences of a mysterious Mars-sized planet's influence on Earth's rotation. Envision the prospects of space exploration with the availability of the moon's bountiful water resources. For more Space Nuts, visit our website or follow us on socials. We're everywhere... Website: https://www.spacenuts.io YouTube: youtube.com/@spacenuts Twitter: @spacenutspodcst Facebook: @SpaceNutspodcast Instagram: https://www.instagram.com/spacenuts.io/ Discord: @SpaceNutsPodcast TikTok: @BiteszHQ
#astronomy #space #science #spacenuts #podcast

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In this episode of the podcast, Fred Watson embarks on a journey to the National Press Club to attend a big event featuring NASA Administrator Bill Nelson, only to find himself in the wrong place at the wrong time and caught in a thunderstorm. "If you're going to bet on where the most likely place for an eruption to occur on Venus, this would be it. It's the tallest volcano on the planet." Fred Watson was in a hotel room in Canberra when a thunderstorm struck, sending him scrambling to unplug his electronics. While there, he heard about the National Press Club lunch with the NASA administrator, Bill Nelson, and his deputy, Pam Melroy. He managed to get a ticket and attended the event, where he learned about the volcanically active planet Venus. Robert Herrick, a planetary scientist at the University of Alaska, had detected a particular volcanic vent that had changed in shape and size over an eight month period. Professor Herrick suggested that this could be a recent volcanic event; and Trevor Allen's research on the carbonaceous asteroid, 162173 Ryugu, uncovered evidence of uracil, a component of RNA molecules. In this episode, you will learn the following: 1. What is the Veritas mission and how could it further our understanding of volcanoes on Venus?Herrick 2. How did researchers detect uracil in the carbonaceous asteroid 162173 Ryugu? 3. How does the sun's core lose mass and energy and how does it become visible radiation? Connect with us: Facebook: @spacenutspodcast YouTube: @spacenutspodcast Twitter: @spacenutspodcst Website: www.spacenuts.io Loved this episode? Leave us a review and rating here: https://www.bitesz.com/show/space-nuts/reviews/new/ Sponsor Details: This episode is brought to you thanks to the support of NordVPN. To check out the special Space Nuts deals at the moment, just visit www.nordvpn.com/spacenuts and click on the Get the Deal button. Thank you.

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When an ambitious astrophysicist discovers a lone galaxy 9.2 billion light years away, she unravels the mystery of a fossil cluster, uncovering an unexpected twist in the evolution of carbon in the universe. In this episode, learn about astronomy topics - Quasars, Big Bang, and Carbon formation in the universe - from a conversation between Andrew and Fred about Dr. Rebecca Davis' research. They discuss how carbon started forming in the universe, which is important as we are a carbon based life form. The research found that in the early universe there was more cold carbon than warm carbon and it may be due to the first generation of stars. This research also paves the way for future investigations with the Square Kilometer Array to detect neutral hydrogen during a key phase of the universe's history. Furthermore, there is an example of extreme galactic cannibalism, with a distant galaxy called 3 C 297, which appears to be alone in space due to gobbling up all it's neighbours. "During the period when the first stars and galaxies are forming, a lot of heavy elements are forming because we never had carbon before we had stars. One possible reason for this rapid rise is just that we're seeing the products of the first generation of stars." In this episode, you will learn the following: 1. Australian astrophysicists have uncovered a crucial new development in understanding the evolution of carbon in the universe. 2. An extremely distant and old galaxy, 3C 297, is all alone in space, because it ate its friends. 3. Astronomers have discovered the earliest fossil group ever found, suggesting that galaxies gobbling up their partners and friends happened much earlier in the universe than previously thought. Connect with us: Facebook: spacenutspodcast YouTube: @spacenutspodcast Twitter: @spacenutspodcst Website: www.spacenuts.io Loved this episode? Leave us a review and rating on our HQs website at https://www.bitesz.com/show/space-nuts/reviews/new/ - Thank you.

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Hi there, thanks for joining us. This is Space Nuts. I'm your host, Andrew Dunkley. Hope you can stick around. We've got a lot to talk about today. What time is it on the moon? It's moon time.
It could be daytime, could be night-time. It depends where you are, but we're talking about real time.
We'll elaborate in this episode and offer up some solutions. There might be a new way to find Planet Nine. We're going to look at some sunrays on Mars and the dark Big Bang Theory. We'll also be answering some audience questions and much, much more on this episode of Space Nuts. "Throughout human history, exploration has actually been a key driver of improved timekeeping and geodetic reference models." The idea is how do you define time on the Moon. Do you have lots of different time zones, like we have on Earth? Or do you have a single lunar time zone? A joint international effort is now being launched towards achieving this. In this episode, you will learn the following: 1. How is time being defined on the Moon? 2. What is Planet Nine and can we find it? 3. Have Crepuscular Rays been seen on Mars for the first time? For more Space Nuts simply visit our website at www.spacenuts.io where you can find our entire back catalogue, plus learn how you can join our crew and become a supporter and access the rewards that go with that. Come join our elite family. Connect with mus: Facebook: spacenutspodcast YouTube: @spacenutspodcast Twitter: spacenutspodcst Website: www.spacenuts.io Loved this episode? Leave us a review and rating here on either Apple Podcasts or Spotify. It would be enormously helpful. Thank you.
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#space #science #astronomy #news #podcast #spacenuts

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Experience the awe-inspiring power of the universe with a journey to see the aurora australis and witness spaghettification first-hand! Learn about Aurora displays from this Space Nuts podcast episode featuring Fred Watson and Andrew Dunkley. Apparently, people have been seeing these aurora displays in unusual places due to various plasma bubbles being spat out from the sun. This is not surprising as we are approaching the solar maximum, which is the regular up and down trend in the number of sunspots that appear on the sun. These sunspots are highly intense regions of magnetism that release energy in the form of plasma bubbles which cause the green, red and sometimes purple lights of the aurora. It is unusual for people to be seeing the aurora in places such as the UK, and the best time to look is near the equinox. Plus we’re witnessing a spaghettification first hand, but what exactly is that, and lastly, the Space Station was damaged by a micrometeoroid and a rescue mission is underway. In this episode, you will learn the following: 1. People are seeing the aurora in unexpected places - what is causing this phenomenon? 2. What will happen to the mysterious gas cloud X-7 as it passes closest to a black hole in 2036? 3. An uncrewed rescue mission was sent to the International Space Station - what was the mission and why was it necessary? Connect with us: Facebook: spacenutspodcast YouTube: @spacenutspodcast Twitter: spacenutspodcst Website: www.spacenuts.io Loved this episode? Leave us a review and rating here on Apple Podcasts or Spotify. Thank you. https://podcasts.apple.com/us/podcast/space-nuts/id1080090608 https://open.spotify.com/show/3zSV4WU2cA7iPHGfRkuuHO
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After a decade of searching, a determined Mars rover discovers an eerily familiar formation of an ancient crater, inciting an interplanetary investigation of the phenomenon of pareidolia. You will learn the mysteries of the Red Planet and the latest updates on Mars exploration.
Show Notes:
After a decade of searching, a determined Mars rover discovers an eerily familiar formation of an ancient crater, inciting an interplanetary investigation of the phenomenon of pareidolia. You will learn the mysteries of the Red Planet and the latest updates on Mars exploration. Learn about Mars exploration through a lively conversation between Andrew Dunkley and Professor Fred Watson on Space Nuts. They discussed the phenomenon of pareidolia, where people find familiar shapes in random objects, and how it has been seen on Mars in the form of faces, hats, and other shapes. They also talked about the rover Perseverance and its mission to collect samples which have been left on the surface in 10 sealed tubes. They have now been dropped at a geographical location called Three Forks. Lastly, they discussed the camera on the rover's arm called Watson, which uses spectroscopy to analyze the rock samples. "We try to humanize everything we do humanize it. It's great because it draws attention to what's going on around it and maybe they get interested and have a look at some more. We just seem to gravitate to faces, don't we? Especially smiley ones. Well, that's good. I mean, you don't really want evil faces in space." In this episode, you will learn the following: 1. What is the phenomenon of pareidolia, and how does it explain why we see faces in inanimate objects? 2. What happened when the Mars Reconnaissance Orbiter captured an image of a "Paddington Bear" on the surface of Mars? 3. What advanced technologies are being used to collect and analyze samples from the surface of Mars?

Space Nuts Episode 339 with Professor Fred Watson & Andrew Dunkley Download from your favorite podcast distributor or visit our website at www.spacenuts.io Sponsor Links: This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Kick off the new year know you’re secure online and take advantage of our special deal. For details visit www.nordvpn.com/spacenuts or use the checkout code SPACENUTS
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Thank you for joining us on Space Nuts where we talk astronomy and space science every week. I hope you well. Coming up in this edition indestructible asteroids - yep they've got some samples they've hit him with a hammer and nothing happened and we're talking asteroids that are made of rubble. But it turns out to be more like reinforced concrete. We're also going to look at machine learning or artificial intelligence for the discovery, maybe, of extraterrestrial life. And we're going to answer some questions about gravity and astronauts. What happens when they're going maybe from here to Mars? What's the gravity like compared to orbiting the planet or lack of there? So how is a light year measured? Very carefully. And what pushes rockets in space? We will tell you all of that if we can. Maybe we won't. Coming up on this edition of Space Nuts. Astronomy, Science, Space, and Stuff. Space Nuts Episode 338 with Professor Fred Watson & Andrew Dunkley Download from your favorite podcast distributor or visit our website at www.spacenuts.io Sponsor Links: The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose. Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial. For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee.

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We're back. Space Nuts. 2023. I'm Andrew Dunkley, your host, and joining me, as always, will be Professor Fred Watson, astronomer at large. Hi, Fred. Happy new year. Probably too late to say that, but anyway, it's the first time we've chatted a break. Now, what's coming up on the 337th edition of Space nuts? Well, a near miss asteroid we've got to talk about. Asteroid 2023 BU, which flew past the earth very closely recently. It was almost a record breaker in that regard. We'll cover that. And we'll also talk about some new results from the James Webb telescope about the molecules and chemicals that are being found deep in icy clouds in space. Wow. All right. It's just always something new coming from the James Webb space telescope. And some audience questions. Harold wants to know about self-cleaning rovers. Good idea. Sandy in Melbourne wants to talk about how spacecraft targets small objects in space and more. Astronomy, Science, Space, and Stuff. Space Nuts Episode 337 with Professor Fred Watson & Andrew Dunkley Download from your favorite podcast distributor or visit our website at www.spacenuts.io Sponsor Links: This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Kick off the new year know you’re secure online and take advantage of our special deal. For details visit www.nordvpn.com/spacenuts or use the checkout code SPACENUTS For more Space Nuts, supporter links, sponsor links, to visit the shop, buy a book, leave us your questions, and stream podcast episodes on-demand, visit our website at https://spacenutspodcast.com or the new www.bitesz.com site https://www.bitesz.com/show/space-nuts/ (mobile friendly). New link: https://spacenuts.io New Link: https://spacenutsshop.com to go directly to our shop. Send us a message, ask a question…whatever. We love hearing from you: https://www.speakpipe.com/spacenuts Find all our show links at https://linktr.ee/biteszHQ

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In early November 2022, Artemis-1 finally launched on it's inaugura mission after several false starts. A huge success, the mission gave us a glimpse of things to come....the future had arraived. Great excitment ensued. Fred gave us his epert overview of the launch and what it meant for the future of space exploration.
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In April 2022, Space Nuts reached a milestone...the recording of the 300th episode. A celebration ensued. Enjoy!

Astronomy, Science, Space, and Stuff. Space Nuts Best of 2022 E04 with Professor Fred Watson & Andrew Dunkley Download from your favorite podcast distributor or visit our website at www.spacenuts.io Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps. Also on YouTube at www.youtube.com/@astronomydailythepodcast
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Astronomy, Science, Space, and Stuff. Space Nuts – The Best of 2022 E03 - with Professor Fred Watson & Andrew Dunkley Andrew: Hello. Andrew Dunkley here from Space Nuts. Hope you can join us on Best of 2022 episode where I'll be joined by none other than the good Professor Fred Watson, astronomer at large. Fred. What's on this edition. Fred: One of the biggest stories of 2022, which is the first images from the James Webb Space Telescope. We're going to cover that in a little bit of detail. We're going to talk about a new telescope that's just starting to be built at Siding Spring Observatory here in New South Wales, that’ll be looking for the aftermath of gravitational wave events. And we’ll squeeze in a story about the idea that aliens might use quantum communication. Andrew: And we just finished answering all the questions about gravitational waves and we had to do a gravitational wave story. So, we'll start rolling again, of course. And speaking of audience questions, we'll be hearing from Ben in Dover, who has a gravitational wave question, and Alex from New South Wales about the apparent size of galaxies. That's a really interesting question. That's all coming up on episode 313 of Space Nuts, the podcast you can download from your favorite podcast distributor. Talk to you then. Bye. Sponsor Links: This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. As part of the Space Nuts family, we have a special holiday season deal for you…just visit www.nordvpn.com/spacenuts for details.

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In this episode as part of our Best of 2022 series while Andrew and Fred take a break, we take you back to February 2022 for one of our favorite Q&A sessions...you ask, we answer. Enjoy!
Astronomy, Science, Space, and Stuff. Space Nuts Episode 290 with Professor Fred Watson & Andrew Dunkley · Our listeners take over the show with questions from around the globe. Fred has answers for all of them. NEW:The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers (sorry, Patreon isn’t there yet…fingers crossed). To access the premium feed, just log in to your Spotify account and do a search. Use your current subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose. Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial. For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ New: Listen to Space Nuts on your favorite app with the Universal listen link: https://link.chtbl.com/NAwvL_XP If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts

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In the this, the first in our Best of 2022 series while Andrew and Fred take a break, we introduce our special guest Marie-Claire Mercier who was our eyes and ears on the ground at the historic DART Mission climax. Enjoy!

We hope you can join us on this episode, because it's very exciting. We are going to do a follow up on the DART mission with one of our dedicated listeners, Marie-Claire Mercier. Hi, Marie Claire. Thanks for joining us, by the way. Marie-Claire: Thank you. Thank you for sending the invite. Andrew: And we've got other things to talk about, too. Fred, what's going on? Fred: Exciting news from Mars. Andrew, your favorite planet, Some interesting evidence that comes from the Chinese rover on Mars with its ground penetrating radar, it's revealed some interesting features deep beneath the surface of Mars. Good thing to talk about. Andrew: Okay. Yes, indeed. Look forward to that. We'll also be answering some audience questions about the effects of an asteroid impact, which dovetails beautifully with the DART Mission and Dark Force theory. What is it? Nothing to do with Star Wars. You can find out more on this episode of Space Nuts. Download from your favorite podcast distributor or visit our website at www.spacenuts.io

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I hope you can join us on what will be the last official episode of Space Nuts for this calendar year. And my name is Andrew Dunkley, of course, the host, and joining me will be Professor Fred Watson, astronomer at large. Fred, what are we going to do to finish off this 2022? Well, we've got some great stories, actually. It looks as though there's a mystery being solved that has hung around for decades regarding the satellite galaxies of the Milky Way, which we see from down here in the Southern Hemisphere, the large and small Magellanic Cloud, among many others of them. That looks as though it's been solved by scientists, including somebody I know quite well actually from the University of Durham. Also, we're going to talk about something I know nothing about, the possibility that dark matter might turn out to be dark photons. All in Space Nuts 336. Astronomy, Science, Space, and Stuff. Space Nuts Episode 336 with Professor Fred Watson & Andrew Dunkley Download from your favorite podcast distributor or visit our website at www.spacenuts.io Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps. Also on YouTube at www.youtube.com/@astronomydailythepodcast Sponsor Links: Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial. For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts Sponsor Details: This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS

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Thanks for joining us.
This is Space Nuts where we talk astronomy and space science. My name is Andrew Dunkley, your host, and this is an all-question episode. Your questions and our answers.

Well, almost. We'll be hearing about spin launch. Somebody's not so much sent a question in, but they've been there and wanted to tell us about it.

But questions about the radial velocity of stars, negative gravity, dark matter, and the Casimir effect, and much, much more.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 335 with Professor Fred Watson & Andrew Dunkley

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps. Also on YouTube at www.youtube.com/@astronomydailythepodcast

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Thanks for joining us on Space Nuts, the podcast about astronomy and space science
also heard on community radio across Australia.
My name is Andrew Dunkley, your host. And coming up on this edition, we're going to be looking at the Square Kilometre Array.
And the reason is because you can actually look at it because they've started building the thing. Also, some interesting findings by the James Webb Space Telescope.
Mars appears to be active, much more active than we would have considered.
Some new evidence has come to light and a bit of an update on Artemis 1 and questions about the end of the life of the sun and Terra forming an ice moon. That's all to come on this edition of Space Nuts.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 334 with Professor Fred Watson & Andrew Dunkley

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.

Sponsor Links:
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

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If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts

Sponsor Details:
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS
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We've got a bunch of really interesting and quite provocative stories this week.

A story about how volcanism might have shaped the atmosphere of the planet Venus.

And another story about something we’ve never talked about and that is filaments in the centers of galaxies. I used to think of a filament as being something that lit up a light bulb although they don't have that anymore, but these are filaments of hot gas which have been detected and are really quite mysterious.

And we'll answer questions about anti-matter and anti-protons, space junk, relativity, and one question we don't really understand, but it came from Rusty in Western Australia. So that's understandable in itself.

That's all coming up on this edition of Space Nuts, episode 333.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 333 with Professor Fred Watson & Andrew Dunkley

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
Sponsor Links:
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
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If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts



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The James Webb Space Telescope has analyzed the atmosphere of an exoplanet and found astonishing new evidence of water vapor, carbon dioxide, and sulfur dioxide. In this episode, you will learn:
1. The James Webb Space Telescope has discovered new atmospheric compositions on the exoplanet Wasp-39b, including sulfur dioxide, potassium, and carbon monoxide.
2. The shape of our galaxy may be more complicated than previously thought, with a halo of stars and other objects surrounding the disk of stars.
3. The Gaia spacecraft has measured the positions and motions of stars with unprecedented accuracy, providing new insights into the structure of our galaxy.

"The latest results, though, they were pretty impressive, what we've heard so far. But the ones that we're seeing now are really quite staggering because the Webb using its infrared equipment in a way that lets you investigate the atmosphere of this planet as it passes in front of its parent

I'm joined by Professor Fred Watson on Space Nuts, where we talk astronomy, space science, and how to solve some of your pet problems. We're discussing a new discovery by the James Webb Space Telescope which analyzed the atmosphere of an exoplanet and found some astonishing results. We're also looking at the true shape of our galaxy, which turns out to be more like a football than a sphere. And with the World Cup on, I thought we would have been no, not at all. We're going to answer questions about Jodrell bank and surprise, surprise, dark matter and black holes all coming up on the very next edition, this one of Space Nuts
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Coming up on this edition, We will be talking at last about the launch of Artemis 1, which is just fabulous news. And we'll talk about that mission.
On the other side of the coin, some documentary makers have discovered a chunk
of the Challenger shuttle in the Atlantic Ocean, which is a somber reminder of tragedies past.
And astronomers have found a black hole. And if you open your door, there it is. It's fairly close to earth.
Plus audience questions coming up today, about spin launch the Barnard 68 Void and Sagittarius A star, all on this edition of Space Nuts.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 331 with Professor Fred Watson & Andrew Dunkley

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ
If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts

Sponsor Details:
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS

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We've got an episode that divides by five. So, it means it's all questions.
And we've got a range of questions today, which cover the whole universe, basically. Several about the moon, which is a great one because by chance today there is an eclipse of the moon.
But they range from that out to vertical particles in the universe and the origin of dark matter.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 330 with Professor Fred Watson & Andrew Dunkley

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.

Sponsor Links:
MeUndies – go to www.meundies.com/spacenuts to our listener discount and help support the show. Win/win.
Heights BrainCare: To look after your brain, visit https://www.yourheights.com and use the Promo Code SPACENUTS to get our listener discount.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

In this episode we're going to revisit Andrew’s favorite planet again with this continuing debate about whether there is liquid water underneath Mars' South polar ice cap that's taken a new turn, there is more news to talk about, which is very interesting. Plus, we look at some really exciting observations of what you might call prebiotic molecules, the kind of molecules that make up the building blocks of life, how they are affected by nearby black holes. Worked that one out. Plus listener questions. It’s all in Space Nuts 329.Enjoy!

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 329 with Professor Fred Watson & Andrew Dunkley

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts
Sponsor Details:
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS
#space #science #astronomy #news #podcast

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Astronomy, Science, Space, and Stuff.
Space Nuts Episode 328 with Professor Fred Watson & Andrew Dunkley
In this episode, we're going to visit Jupiter's moon Europa because there's new stuff from Europa, we've got new images which have come back from a flyby by the Juno spacecraft, plus some work about the plumes of ice that might come out of the surface of Europa.
Then we're going to go to the distant universe to talk about gravitational lenses with some new work that has been done here in Australia.
We'll also be answering some audience questions. Ian wants to know about Venus and Mars. It's a great Paul McCartney album. I think that's the answer to the question. Also the size of Earth, earth by perception. And Gus wants to talk about dark matter. Or do we have to - yes, we do.
Download from your favorite podcast distributor or visit our website at www.spacenuts.io

Have you checked out our new daily news podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
Sponsor Links:
Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS
#podcast #space #astronomy #spacenuts #nordvpn

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Astronomy, Science, Space, and Stuff.
Space Nuts Episode 327 with Professor Fred Watson & Andrew Dunkley
We have a story about what you can learn from beads, tiny beads of glass in the soil of the moon which have been brought back by the Changing Five spacecraft. We also have a story about the possible detection of the aftermath of the first stars in the universe.

We'll also be taking some audience questions. One about antimatter, and I love this one a hypothetical - fishing in a black hole. Now, there's more to it than that, and you won't catch fish in a black hole. They will already be spaghettified. But what happens if you're a fish in a black hole?

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts
#astronomy #space #science #news

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

Space Nuts Episode 326 with Professor Fred Watson & Andrew Dunkley
This is episode 326 of Space Nuts podcast, a bumper action packed episode yet again. We're going to talk about a new map of 56,000 galaxies, which is really interesting, and hopefully we'll learn something quite new about the universe from that. And we're also going to talk about Saturn's moon Enceladus, which you and I have spoken about many times before. Maybe there are the right minerals for living organisms in the ocean, underneath the ice of Enceladus.

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 325 with Professor Fred Watson & Andrew Dunkley
This is episode 325 of Space Nuts podcast, and we've got a lot to talk about. In fact, the audience is going to do the talking because we're dedicating the whole show to questions. So we've got questions about Artemis 1, dark matter, flickering stars, Spacetime holes, gravity and terraforming Venus. Which will be interesting because it's a hot bed that place a very, very, nasty place if you set foot on it, which I don't advise. That's all to come on this edition of Space Nuts. Enjoy!

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.

Sponsor Links:
MeUndies – go to www.meundies.com/spacenuts to our listener discount and help support the show. Win/win.
Heights BrainCare: To look after your brain, visit https://www.yourheights.com and use the Promo Code SPACENUTS to get our listener discount.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts
Sponsor Details:
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS ...

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Astronomy, Science, Space, and Stuff.
Space Nuts Episode 324 with Professor Fred Watson & Andrew Dunkley
I hope you can join us on the very next episode, because it's very exciting. We are going to do a follow up on the DART mission with one of our dedicated listeners, Marie-Claire Mercier. Hi, Marie Claire. Thanks for joining us, by the way.
Marie-Claire: Thank you. Thank you for sending the invite.
Andrew: And we've got other things to talk about, too. Fred, what's going on?
Fred: Exciting news from Mars. Andrew, your favorite planet, Some interesting evidence that comes from the Chinese rover on Mars with its ground penetrating radar, it's revealed some interesting features deep beneath the surface of Mars. Good thing to talk about.
Andrew: Okay. Yes, indeed. Look forward to that. We'll also be answering some audience questions about the effects of an asteroid impact, which dovetails beautifully with the DART Mission and Dark Force theory. What is it? Nothing to do with Star Wars. You can find out more on this episode of Space Nuts.
Download from your favorite podcast distributor or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

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Space Nuts 323 Show Notes
September 22, 2022

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 323 with Professor Fred Watson & Andrew Dunkley
Coming up, we're going to be looking at the 100th anniversary of a major event in astronomy and space science involving Einstein, which Fred knows everything about because he's giving a lecture on it tonight. We're also going to talk about Mars because there's been some interesting findings on Mars and it's all to do with vibrations. And listener questions… Jerry wants to know about the threat from solar flares and Tom from Minnesota on calculating distances across the vastness of the universe. That's all to come on this episode of Space Nuts.

Download from your favorite podcast distributor or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.

Sponsor Links:
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 322 with Professor Fred Watson & Andrew Dunkley
Andrew: Hello again. Andrew Dunkley here from the Space Nuts podcast. We've got the next episode. coming up and to tell us what's going to be on episode 322, Astronomer at Large. Fred Watson.
Fred: Hot off the press stories, as always. We've got a new mineral that has been discovered on the Moon by Chinese scientists which sounds really interesting. And we've got some less than good news, I guess, to report on two of the space missions that are uppermost in our mind. Artemis One and Blue Origin.
Andrew: Okay we'll look into those issues, and we will get questions from Rebecca in Geelong, who is asking about with the Moon being hit by pieces of rock on a regular basis and what that might do to future Moon bases and Moon missions. And Mikey from Illinois wants to know how we know galaxies are interacting when there are so many in the pictures coming back from James Web. That's a good question. We'll do all of that in this episode of Space Nuts - download from your favorite podcast distributor or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.

The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers. To access the premium feed, just log in to your Spotify account and do a search. Use your current Supercast subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose. Now with bonus Astronomy Daily-the Podcast Commercial Free.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ
If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts
#podcast #astronomy #space #science #spacenuts

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

Space Nuts Episode 321 with Professor Fred Watson & Andrew Dunkley
Andrew: Hello again. My name is Andrew Dunkley, the host of the Space Nuts podcast and joining me is Professor Fred Watson, astronomer at large. What’s on this episode Fred?
Fred: Magical episode as always, Andrew. We've got, the first exoplanet imaged by the James Webb Space Telescope. Really exciting to actually see directly the image of a planet for the first time. And we're going to talk about that well known asteroid impact experiment called DART, because we have news on that and some sad news as well about the passing of Professor Frank Drake of Drake Equation fame.
Andrew: Yes, indeed, very sad news there, but lots to talk about on the very next episode and some audience questions as well. So, I hope you can stay with us for episode 321 of Space Nuts.

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers (sorry, Patreon isn’t there yet…fingers crossed). To access the premium feed, just log in to your Spotify account and do a search. Use your current subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen
Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

Have you checked out Andrew's new podcast yet?
Here's a sample episode to get you started. If you like what you hear, you can subscribe wherever you get your podcasts, including Apple Podcasts, Spotify, Google Podcasts, Pocketcasts, iHeartRadio and more. You can also stream all episodes from the Space Nuts website...just visit https://spacenuts.io

Enjoy!

Astronomy Daily – The Podcast
Show Notes
S01E10
Astronomy Daily – The Podcast is now available on Apple Podcasts and Spotify:
Apple Podcasts: https://podcasts.apple.com/us/podcast/astronomy-daily-the-podcast/id1642258990
Spotify: https://open.spotify.com/show/2kPF1ABBW2rCrjDlU2CWLW
Wednesday September 7, 2022
Join Andrew Dunkley and his feisty AI Co-host Halley (no surname) as they bring you todays space, astronomy, and science news in an easy to digest podcast.
Stories featured in this episode:
It seems Betelgeuse changed colour at some point in time
NASA to study all available evidence of UFO’s or UAPs to see what’s going on.
Bluewalker 3 about to launch a satellite that will revolutionise mobile phone communications.
ESA’s giant mechanical arm has successfully completed its first maneuver .
What’s the DART Mission all about?
Aerospace Corporation unveils a new high tech facility in Colorado Springs, USA.
STEVE makes a rare appearance.
Movie Night on ISS gets a little awkward.
If you’d like to find out more about the stories featured in today’s show, you can read today’s edition of the Astronomy Daily Newsletter at any of our websites – www.spacenutspodcast.com , www.bitesz.com or go directly to www.astronomydaily.io – subscribe and get the new edition delivered to your mailbox or RSS reader every day….it’s free from us to you.
Please subscribe to the podcast and if you have a moment, a quick review would be most helpful. Thank you…

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Astronomy, Science, Space, and Stuff.
Space Nuts Episode 320 with Professor Fred Watson & Andrew Dunkley
Andrew: Hello once again. I'm Andrew Dunkley, the host of Space Nuts, and every week we talk astronomy and space science with Professor Fred Watson, Astronomer at large. Hi, Fred. What are we talking about this week?
Fred: We've got a bumper show, as always, starting with what went wrong with Artemis One. We might just do a quick rundown on that. And then we've got, because it's episode 320, but who's counting… we've got an all question episode, including a question about the ice on Europa, ranging from that to really deep and meaningful questions like what is Space time? .
Andrew: And can you put it in your pocket?
Andrew: Can we bottle it and can you take it somewhere down an alley and sell it to somebody? All these questions will be answered today or very soon on the next episode of Space Nuts. Catch it the download from your favorite podcast distributor.
Listen via your favourite podcast app or visit our website at www.spacenuts.io

If you’d like to check out Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com And now available on Apple Podcasts, Spotify, iHeartradio, Pocketcasts and most other podcast apps.
Sponsor Links:
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS
For more Space Nuts, supporter links, sponsor links, to visit the shop, buy a book, leave us your questions, and stream podcast episodes on-demand, visit our website at https://spacenutspodcast.com or the new www.bitesz.com site https://www.bitesz.com/show/space-nuts/ (mobile friendly).
For more podcast listening, visit our HQ at https://bitesz.com

#podcast #astronomy #space #science #spacenuts #artemis1

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Astronomy, Science, Space, and Stuff.
Space Nuts Episode 319 with Professor Fred Watson & Andrew Dunkley
Andrew: Hello again. I'm Andrew Dunkley from the Space Nuts podcast, hoping you can join us on this episode. And my partner in crime is Professor Fred Watson, Astronomer at Large. Hi, Fred. What's coming up on episode three one nine?
Fred: We've got some great stuff as always, Andrew. We're going to ask the question, did the asteroid that wiped out the dinosaurs have a companion object that was traveling with it? That's an intriguing thing to look at. We're also going to look at some new observations of the largest known star in the universe. Wow.
Andrew: Okay. It's not you, is it?
Fred: Well, apart from me.
Andrew: A lot of people would say it's you.
Fred: No, I don't think so. But thank you very much for the compliment. And thank you to those people as well.
Andrew: Now, we'll also be hearing from a few of those people, some questions from the audience about Dyson Spheres, the Barycenter of the Earth and the Moon, and cosmic microwave background radiation. That’s one of the really interesting questions we're going to tackle. All coming up on this episode of Space Nuts. Download from your favorite podcast distributor.

Listen via your favourite podcast app or visit our website at www.spacenuts.io

If you’d like to check out the early previews of Andrews new daily podcast, Astronomy Daily – The Podcast, just visit our website at https://spacenuts.io or our HQ at https://bitesz.com It’s coming to your favourite podcast apps shortly. Check the website for details.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ

If you find value in Andrew & Fred’s work, you might like to consider buying them a coffee. They’d really appreciate the break. Thank you… https://www.buymeacoffee.com/spacenuts
Sponsor Details:
This episode of Space Nuts is brought to you by NordVPN…the highly rated VPN service and the one we personally use. Fast and secure. It’s the one you need in your life. Get the complete security package deal with four months free and 69% of for 2 years by visiting www.nordvpn.com/spacenuts or use the checkout code SPACENUTS
#space #science #astronomy #podcast #sciencenews #spacenews #astronomynews #dinosaurnews

Become a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.

Astronomy, Science, Space, and Stuff.
Space Nuts Episode 318 with Professor Fred Watson & Andrew Dunkley
Andrew: Hi there. Andrew Dunkley here from the Space Nuts podcast. Hope you can join us for episode 318. What are we going to be talking about, Fred?
Fred: We're going to talk about the discovery of a moon of an asteroid. And it's an important asteroid because this one is going to be visited by the Lucy spacecraft in the late 2020s.
We're also going to talk about upside down snow falling, or should it be rising, in the ocean of Jupiter’s moon Europa. And there are listener questions to come which haven't yet revealed to me, but I understand they might be on the James Webb Space.
Andrew: They might be, because a lot of people are really fascinated by the James Webb Space Telescope, and that spawns a lot of questions.
So that's indeed what we will be talking about in episode 318 of Space Nuts with me, Andrew Dunkley and Professor Fred Watson, astronomer at large.

Listen via your favourite podcast app or visit our website at www.spacenuts.io
The Space Nuts Premium edition is now available on Spotify for our Supercast subscribers (sorry, Patreon isn’t there yet…fingers crossed). To access the premium feed, just log in to your Spotify account and do a search. Use your current subscriber details to unlock the premium content. If you’d like to become a subscriber, just visit https://spacenuts.supercast.tech and sign up. You even get a 30-day free trial to see if it’s right for you. Nothing to lose.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
New: Listen to Space Nuts on your favorite app with the Universal listen link: https://spacenutspodcast.com/listen

Are you a Discord fan? If so…come and join our ever-growing community. https://discord.gg/V4822WSmnJ
#podcast #spacenuts #astronomy #space #science #space #astrophysics #cosmology #jupiter

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Astronomy, Science, Space, and Stuff.
Space Nuts Episode 317 with Professor Fred Watson & Andrew Dunkley
Andrew: Hi, there. Thanks for joining us. Well, I hope you do - for episode 317 of Space Nuts the podcast. I'm Andrew Dunkley, your host, and joining me every week is Professor Fred Watson, astronomer at large. What are we talking about this week, Fred?
Fred: Action Pack show as always, Andrew. We're going to talk about more observations that suggest that dark matter is not what we think it is. And we're also going to talk about a new supercomputer that we've got here in Australia. And I'm going to explain why I'm wearing this hi-vis vest.
Andrew: Yes, I'm wondering. It's not a good look.
Fred: Wait till you see what it is.
Andrew: Okay. All right will do. We'll also be answering some audience questions, but Fred doesn't know what they are. We're going to do a bit of a potluck on him this week. He doesn't like it. But occasionally, it's fun to see how things pan out.
So, I hope you can join us for episode 317 of Space Nuts on your favorite podcast distributor, and we'll chat to you then.
Premium Editions also now available via subscription through Apple Podcasts…again with a 30-day free trial.
For more Space Nuts, visit our websites. Links: https://linktr.ee/biteszHQ
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