Unraveling the Phenomenon of Gamma Ray Bursts and Supernovae | #381
Space Nuts - Un pódcast de Professor Fred Watson and Andrew Dunkley
🌏 Get Our Exclusive NordVPN deal here ➼ https://www.nordvpn.com/spacenuts or use the checkout code SPACENUTS. It’s risk-free with Nord’s 30-day money-back guarantee! ✌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 Rover06:05 Gamma Ray Burst and Mysterious Disappearing, Reappearing Galaxy25:14 Discussion on AzTEC 71 and Dusty Galaxies36:07 Question on Kardashev Scale and Dyson Spheres39:42 Speculating on Advanced Civilizations43:30 Tidal Locking of Planets and Moons50:00 Measuring the Speed of ObjectsBecome a supporter of this podcast: https://www.spreaker.com/podcast/space-nuts--2631155/support.