![Hydroacoustic events located at the intersection of the Atlantis (30°N) and Kane (23°40′N) Transform Faults with the Mid‐Atlantic Ridge - Williams - 2006 - Geochemistry, Geophysics, Geosystems - Wiley Online Library Hydroacoustic events located at the intersection of the Atlantis (30°N) and Kane (23°40′N) Transform Faults with the Mid‐Atlantic Ridge - Williams - 2006 - Geochemistry, Geophysics, Geosystems - Wiley Online Library](https://agupubs.onlinelibrary.wiley.com/cms/asset/17d03f2d-1273-4a8f-9066-b0eb6641a57a/ggge818-fig-0003.png)
Hydroacoustic events located at the intersection of the Atlantis (30°N) and Kane (23°40′N) Transform Faults with the Mid‐Atlantic Ridge - Williams - 2006 - Geochemistry, Geophysics, Geosystems - Wiley Online Library
![Mike Chillit on X: "#HydrophoneHoax #MH370 Sound moves through ocean water between the surface and the seafloor, much like oscilloscope waves. If deep sea sound doesn't get into the SOFAR Channel, it Mike Chillit on X: "#HydrophoneHoax #MH370 Sound moves through ocean water between the surface and the seafloor, much like oscilloscope waves. If deep sea sound doesn't get into the SOFAR Channel, it](https://pbs.twimg.com/media/DyQqE3TWoAEpmdQ.jpg)
Mike Chillit on X: "#HydrophoneHoax #MH370 Sound moves through ocean water between the surface and the seafloor, much like oscilloscope waves. If deep sea sound doesn't get into the SOFAR Channel, it
![Stephen Hicks 🇪🇺 on X: "Turns out that what @helenjanisz was prob seeing on the @raspishake stations in Hawaii+Tahiti is a "T-phase" from yesterday's M7.8 Alaska quake. This is an acoustic wave Stephen Hicks 🇪🇺 on X: "Turns out that what @helenjanisz was prob seeing on the @raspishake stations in Hawaii+Tahiti is a "T-phase" from yesterday's M7.8 Alaska quake. This is an acoustic wave](https://pbs.twimg.com/media/EdlxLYcWAAAbOax.png)
Stephen Hicks 🇪🇺 on X: "Turns out that what @helenjanisz was prob seeing on the @raspishake stations in Hawaii+Tahiti is a "T-phase" from yesterday's M7.8 Alaska quake. This is an acoustic wave
![Minute Earth video explains the “SOFAR” channel, that CTBTO uses to listen for underwater nuclear tests. | CTBTO Minute Earth video explains the “SOFAR” channel, that CTBTO uses to listen for underwater nuclear tests. | CTBTO](https://i.ytimg.com/vi/uLM7HDxtYsA/mqdefault.jpg)
Minute Earth video explains the “SOFAR” channel, that CTBTO uses to listen for underwater nuclear tests. | CTBTO
![Research at Exeter on X: "As the temperature of the ocean decreases, the speed of sound decreases too. Mid-ocean sounds can get trapped in channels because of the way sound bends. Whales Research at Exeter on X: "As the temperature of the ocean decreases, the speed of sound decreases too. Mid-ocean sounds can get trapped in channels because of the way sound bends. Whales](https://pbs.twimg.com/media/ELh4FYcWwAI6pWG.jpg)