Videos tagged with Oobleck

This video from Yee Yee Life demonstrates the bullet-stopping capabilities of Oobleck, a non-Newtonian fluid, against various calibers from .22 LR up to .50 BMG. The experiment, conducted by an experienced host, shows how Oobleck's properties change under impact, effectively stopping smaller rounds but failing against high-powered rifle cartridges. The test highlights the significant difference in terminal ballistics between handgun and rifle rounds.

This video explores the bullet-stopping potential of Oobleck, a non-Newtonian fluid, by testing various calibers from .22 LR up to .50 BMG. The experiment, conducted with enthusiasm and safe firearm handling, demonstrates how Oobleck behaves differently under varying projectile impacts. It successfully stopped smaller rounds but was overwhelmed by larger calibers, highlighting the material's unique properties under extreme force.

This video tests the bulletproof capabilities of Oobleck, a non-Newtonian fluid, against various calibers. While Bird Shot and .22LR showed some resistance, higher calibers like 9mm and .308 Winchester penetrated the Oobleck. The experiment highlights the fluid's unique properties of hardening under impact but flowing when pressure is released.

This video explores whether a knife can penetrate Oobleck, a non-Newtonian fluid. The experiment likely involves testing the cutting or stabbing capabilities of a knife against this unique substance, which exhibits properties of both liquids and solids. The title suggests a direct test of the knife's performance in this unusual medium.

This video features Matt Carriker of Demolition Ranch conducting experimental ballistic tests. He compares the 4.6x30mm and 5.7x28mm calibers against Premier Body Armor and a novel Oobleck-filled vest. The tests highlight the low recoil of the 4.6x30mm round and explore its penetration capabilities, with the Oobleck vest ultimately failing to stop the high-velocity rounds.

This video from Demolition Ranch, featuring Matt Carriker, explores the potential of oobleck (a non-Newtonian fluid) as a ballistic protection medium. Through practical testing with various firearms and calibers, from .22 LR to .50 BMG, the experiment demonstrates how oobleck's shear-thickening properties can effectively slow or stop projectiles. The results offer unique insights into material science applied to defense concepts.

This experiment tests Oobleck's ability to stop bullets, revealing it's surprisingly effective against high-energy rounds. While lower handgun calibers like .22 LR were stopped, 9mm and .45 ACP penetrated. However, the .44 Magnum and even rifle rounds like 5.56 NATO and 7.62x39mm were successfully halted by the non-Newtonian fluid. The depth and orientation of the Oobleck significantly impacted its stopping power.