My team recreated the broken necklace and puffed out shirt effect 6 times out of 6 using gel block tests and a 30-06 and a necklace comparable to the one Charlie Kirk was wearing that day.
The explanation is that because fluids cannot be compressed when 2,000+ ft-lbs of force is suddenly dumped into a fluid environment, what you see instead is violent expansion.
Note the shirt gyrations in our videos match those of CK's. The expansion happens in thousandths of a second, while typical video is in hundredths, causing all sorts of video artifacts.
Our video below was shot at 460 fps and with strong lighting, allowing us to see things more clearly.
Hope that helps.
This machine doesn't print on paper. It prints directly on walls.
From museum graphics and building maps to large-scale artwork, wall printers can create designs several meters high with millimeter-level precision.
- No scaffolding full of painters.
- No giant vinyl stickers.
- Just a printer... climbing the wall.
Would you rather print a wall like this or paint it by hand? 👇
🎥 Credit: heerleinwerbetechnik ( Instagram )
⚠️ This content is shared for informational purposes only. CTO Robotics Media does not own or develop the technology shown. Credit belongs to the original creators.
Routine destruction of Palestinian roads and water infrastructure in the Occupied West Bank, featuring the armored D9 Caterpiller produced in East Peoria, Illinois and provided free of charge using our taxpayer dollars.
Scientists in China have developed a stretchable electronic circuit that keeps working even when it's pulled, bent, and twisted.
Unlike traditional rigid electronics, these flexible circuits maintain electrical conductivity under extreme deformation.
The technology could enable:
🧠 Brain-compatible medical implants
👕 Smart electronic textiles
🤖 Softer, more resilient robots
📱 Flexible wearable devices
While the results are impressive, the technology is still in the research stage and isn't yet common in consumer products.
If this becomes commercially viable, which industry will benefit the most first?
🎥 Media: NCNST (CAS)
⚠️ This content is shared for informational purposes only. CTO Robotics Media is a media platform and does not own or develop the technology shown. Credit belongs to the original creators.
One of the least understood systems in aerospace manufacturing is the BeAM Magic 800 directed energy deposition platform used for printing turbine nozzles and hot-section components.
It uses a laser to melt metal powder or wire feedstock, depositing material layer by layer with positioning accuracy in the 20-50 micron range, building complex nickel superalloy structures that can withstand extreme thermal cycling. A full industrial setup can cost $800,000 to $1.5M+
The materials are not simple metals, but aerospace-grade alloys like Inconel 718 and 625, designed to survive temperatures above 700-900°C while resisting creep and oxidation.
But the printed part is never the final part. Critical sealing surfaces, flanges, and precision interfaces are still finished on CNC machines to tolerances under 10 microns, because additive alone cannot guarantee repeatable surface integrity under flight loads.
Video :- Fictiv
German hard techno DJ and producer Klangkuenstler brought his Outworld production to Lyon, and the production truly looks out of this world. He transformed the venue with his signature Mega Reaktor tunnel as 14,000 fans attended the debut French edition of the show.
Scientists have created one of the most detailed 3D reconstructions of a human cell (eukaryotic cell) ever produced.
This groundbreaking model, often termed a "Cellular Landscape Cross-Section Through a Eukaryotic Cell," combines data from X-ray tomography, nuclear magnetic resonance (NMR), and cryo-electron microscopy to map molecular structures in extreme detail.