Falcon 9 sonic booms can feel more like seismic waves https://arstechni.ca/Z3AM #rocketlaunches #sonicbooms #acoustics #Science #falcon9 #Physics

Falcon 9 sonic booms can feel more like seismic waves https://arstechni.ca/Z3AM #rocketlaunches #sonicbooms #acoustics #Science #falcon9 #Physics
I have a mini-essay thing about violin acoustics that I have started writing n+1 times now. It's nothing that profound, but slightly orthogonal to the usual approaches. Partly I am just bad at finishing things and partly I am afraid that the folks in the violin acoustics world are going to go “no, you're being unfair/unreasonable/naive.” I have brought up some of these ideas within that community before. It's not that people disagreed with me, but I think the full import, the full break, I was trying to get at never quite came across or was taken entirely seriously. Telling a bunch of people who think they are doing hard science that we should actually be doing anthropology gets polite self-satisfied chuckles. And for me, it's actually not just about acoustics but about the violin world more broadly, and—at least in my mind—about music making under capitalism. But I'm afraid I'm overreaching and won't be able to motivate, let alone land that part of it, or at least not in a way that will get it taken seriously by folks not already open to it.
Of course, the best way to find out if any of it makes sense and can be properly explained would be to finally move past just a sparse outline… so, um. Here's to that!
What Sonic Detectives Listen for When Rockets Launch - Physicists who record rocket launches and landings, most often by SpaceX, are learning im... - https://www.nytimes.com/2025/05/26/science/rocket-launch-noise.html #spaceexplorationtechnologiescorp #rocketscienceandpropulsion #privatespaceflight #spaceandastronomy #earsandhearing #acoustics #research #geekent #physics #noise
21-May-2025
Can #plants hear their #pollinators? #ASA188
Research suggests pollinator buzzing sounds lead plants to increase their nectar production.
- the meeting highlights from the
Acoustical Society of America are always interesting!
https://www.eurekalert.org/news-releases/1083951 #science #acoustics
Plants can #hear. Study proved "in response to the bee #noises, the snapdragons increased the volume of nectar & its sugar content" wow. "There is growing evidence that both insects & plants can sense & transmit" #sound. The #plants also altered their "#genes that govern sugar transport & nectar production." #Research announced at internat'l convention in New Orleans (25th Internat'l Convention on #Acoustics/ 188th Meeting of the #Acoustical Society of America) this week.
https://www.theguardian.com/environment/2025/may/21/plants-produce-more-nectar-when-they-hear-bees-buzzing-scientists-find
https://www.europesays.com/uk/123764/ Breakthrough Metamaterial Leverages Sound Waves for Touch-Free Control of Submerged Objects #Acoustics #metamaterial #Physics #Science #UK #UnderwaterTechnology #UnitedKingdom #UniversityOfWisconsin–Madison
"Following this experiment, the researchers analyzed the effect of sound on cells using RNA-sequencing, microscopy, and other methods. Their results revealed cell-level responses to the audible range of acoustic stimulation."
Fantastic interview with Dan Menill about #birdsound and #bioacoustics.
https://thewarblers.buzzsprout.com/1784269/episodes/17043353-exploring-bird-sounds-with-dan-mennill
https://www.europesays.com/uk/88666/ Tunability of acoustic band gaps using Thue Morse quasiperiodic lateral resonators #AcousticBandGap #Acoustics #CharacterizationAndAnalyticalTechniques #ComputationalMethods #ComputationalScience #FluidDynamics #Fluidics #Fluids #HumanitiesAndSocialSciences #MechanicalEngineering #MechanicalProperties #multidisciplinary #PhononicCrystal #Physics #QuasiPeriodicStructure #Science #ScientificData #ThueMorseSequence #UK #UnitedKingdom
Widlife Acoustics has a bunch of interesting #workshops coming up in May. If you are interested in #bioacoustics and passive acoustic monitoring this seems like a good place to start or continu your journey.
Best of all, it's free!
https://www.wildlifeacoustics.com/resources/training-courses/virtual-community-training
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#research #acoustics #knowledge
At the Urban Soundscape Symposium this week I heard of the "Catalogue of Soundscape Interventions" https://soundscape-intervention.org/ -- a really handy catalogue for urban designers, planners, etc. And the website heavily features photos of my favourite urban soundscape intervention: #Sheffield train station! #soundscape #urbanism #design #acoustics
Delighted to be highlighted as one of the most read authors in the @BritishEcolSoc journal Functional Ecology in recent years!
This follows being higlighted as a #TopCitedArticle last month. Great to see we're having influence
#ecology #acoustics #TopViewedArticle
The paper invovled "Passive acoustic monitoring provides a fresh perspective on fundamental ecological questions" can be found here
https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/1365-2435.14275
The people at Cornell are doing fantastic work on everything #birds. I realy love their projects and how they share knwoledge.
Some time ago I joined the mailing list for their Bioacoustalks, which are always interesting and give a good insight on current research in the field of #bioacoustics .
You can find previos talks on their YouTube channel. Here is the link to the Bioacoustalks: https://www.birds.cornell.edu/ccb/bioacoustalks/
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#acoustics #research #education #science #sound
Quietening Drones
A drone’s noisiness is one of its major downfalls. Standard drones are obnoxiously loud and disruptive for both humans and animals, one reason that they’re not allowed in many places. This flow visualization, courtesy of the Slow Mo Guys, helps show why. The image above shows a standard off-the-shelf drone rotor. As each blade passes through the smoke, it sheds a wingtip vortex. (Note that these vortices are constantly coming off the blade, but we only see them where they intersect with the smoke.) As the blades go by, a constant stream of regularly-spaced vortices marches downstream of the rotor. This regular spacing creates the dominant acoustic frequency that we hear from the drone.
Animation of wingtip vortices coming off a drone rotor with blades of different lengths. This causes interactions between the vortices, which helps disrupt the drone’s noise.To counter that, the company Wing uses a rotor with blades of different lengths (bottom image). This staggers the location of the shed vortices and causes some later vortices to spin up with their downstream neighbor. These interactions break up that regular spacing that generates the drone’s dominant acoustic frequency. Overall, that makes the drone sound quieter, likely without a large impact to the amount of lift it creates. (Image credit: The Slow Mo Guys)
Gear Acquisition Syndrome activated.
I want an acoustic imager. How that thing is able to hear and locate the barely audible sound of a leaking bicycle inner tube over the loud noise of a small electric air compressor is blowing my mind.
#Fluke #Acoustics #Engineering
https://youtu.be/UPVcwDzhBZ8
https://www.europesays.com/uk/60272/ Internal Acoustics: Effective Noise Mitigation Techniques in Architecture #AcousticComfort #Acoustics #ArchDailyTopic2025BuildingWellbeing:DesigningSpacesForHealing #Architecture #Architecture101 #Articles #Cities #Housing #InteriorDesign #Interiors #News #NoiseReduction #OfficeInteriors #Physics #Residential #Schools #Science #Sound #SoundSpace #UK #UnitedKingdom #WellBeing
I believe the trick is to carry a large curved shield, with a concave surface that reflects sound and radio, and point it back at the transmitter attacking you.
I'm sure cleverer people will be able to tell you how to tune it for a particular user's threat model.
Acoustic levitation of diamond inspires biotech automation innovation
https://phys.org/news/2025-04-acoustic-levitation-diamond-biotech-automation.html
Photonic computing needs more nonlinearity — #acoustics can help
Researchers from #MPL, @unihannover & #MIT demonstrate an all-optically controlled activation function using traveling sound waves. This optoacoustic approach enables nonlinear signal processing in the synthetic frequency dimension and could pave the way for more efficient, scalable optical neural networks — compact, fast, and energy-saving.
Read more
https://mpl.mpg.de/news/article/photonic-computing-needs-more-nonlinearity-acoustics-can-help