Science Friday Folgen

The words “black hole” might bring to mind an infinite darkness. But the area right around a black hole, called the accretion disk, is actually pretty bright, with matter compressing hotter and hotter into a glowing plasma as it is sucked in. And amid that maelstrom, there are even brighter areas—bursts of energy that astronomers call flares.Scientists are trying to better understand what those flares are, and what they can tell us about the nature of black holes. This week in the journal Nature Astronomy, a group of researchers published a video that they say is a 3D reconstruction of the movement of flares around the supermassive black hole at the heart of the Milky Way.Dr. Katie Bouman, an assistant professor of computing and mathematical sciences, electrical engineering and astronomy at Caltech in Pasadena, California, joins guest host Arielle Duhaime-Ross to talk about the research, and how computational imaging techniques can help paint a picture of things that would be difficult or impossible to see naturally.Transcripts for this segment will be available the week after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

Silk is one of the most luxurious fabrics for clothing and bedding. Unlike cotton or linen, silk is made most commonly by insects—often the Bombyx mori, a domesticated moth that feeds on the leaves of mulberry trees. Humans have a 4,000-year history with the textile and the creatures that make it, as documented in the new book Silk: A World History.Since silk has an unconventional origin as a secretion rather than a plant product, it has unique biological qualities that make it strong and enduring. And because it’s a natural protein fiber, it’s biodegradable, so scientists think it could have a future as a sustainable alternative to plastics and electronic parts.Guest host Arielle Duhaime-Ross speaks with Dr. Aarathi Prasad, biologist and author of Silk: A World History. They discuss the ways humans have changed silk-creating creatures through domestication, future applications of the textile, and Prasad’s experience growing silkworms of her own.Read an excerpt from Silk: A World History at sciencefriday.com.Transcripts for each segment will be available after the show airs on sciencefriday.com. Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.

While progress has been made in replacing water pipes in Flint, many residents say they still don’t know if their tap water is clean or not. Also, scientists are adding sensors to an underwater cable network to monitor changes in the ocean and quickly detect earthquakes and tsunamis.10 Years Later, Flint’s Water Crisis Still Isn’t OverIn 2014, city officials in Flint, Michigan, switched their water source to the Flint River, a move that was projected to save the city $5 million. Instead, the water corroded the city’s lead pipes, which led to multiple negative health impacts for local residents, including lead poisoning, and a Legionnaires’ disease outbreak that resulted in a dozen deaths.Now, almost 30,000 homes and businesses have had their water lines replaced, but 1,900 others have still not been reviewed. The city says they’ve reached out to owners of these properties with no response and have not been able to move forward, but activists claim that the city hasn’t contacted them.Guest host Arielle Duhaime-Ross is joined by Vox senior correspondent Umair Irfan to talk about this and other top science news from this week, including new Long COVID trials that are underway, regulations from the EPA that require new coal and gas plants to limit 90% of their CO2 emissions, and a positive software update for Voyager 1.How Underwater Telecom Cables Could Help Detect TsunamisDeep under the sea, a wide network of cables crisscrosses the ocean floor, keeping the internet and other telecommunications online. While these cables have a big job to do, researchers want to make them even more important by giving them the ability to detect seismic activity and alert those on land of a tsunami risk earlier than is currently possible.Portugal is about to be the testing ground for these new, integrated cables, with a 3,700-kilometer cable to be installed between the Iberian country and the Madeira and Azores archipelagoes. This is a fitting place to pilot this, as Lisbon was the site of a devastating 1755 earthquake and tsunami that killed tens of thousands.Joining guest host Arielle Duhaime-Ross to discuss the potential of smart cables is Dr. Bruce Howe, research professor of engineering at the University of Hawaii and chair of the United Nation’s SMART Cables Joint Task Force.Transcripts for each segment will be available after the show airs on sciencefriday.com.   Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.