Videos tagged with Non-Newtonian Fluid

This video reviews SIM-X ammunition, highlighting its proprietary non-Newtonian fluid-filled bullet technology. The ammunition offers significantly higher velocities and reduced recoil compared to traditional loads, leading to faster follow-up shots and improved accuracy. It also serves as a lead-free option for hunting in restricted areas. The review is presented by someone working in a firearms store, demonstrating practical knowledge of ammunition.

This experiment tests the bullet-stopping capabilities of Oobleck, a non-Newtonian fluid, against various calibers. While Oobleck successfully stopped .22 LR and .380 ACP rounds, it was penetrated by .45 ACP and .223 Rem. A .50 BMG round completely destroyed the setup, including the Oobleck container and table, and passed through the mannequin.

This video tests the bulletproof capabilities of Oobleck, a non-Newtonian fluid, against various firearm calibers. While Oobleck successfully stopped .22 LR, .380 ACP, and .223 rounds, it was penetrated by .45 ACP and catastrophically failed against a .50 BMG. The experiment also demonstrated Oobleck's effectiveness against blunt force but its vulnerability to sustained pressure.

This video explores whether Oobleck, a non-Newtonian fluid, can act as effective bulletproof material. It aims to answer this question through a scientific demonstration, likely involving projectile testing against the substance. The content appears to be a science experiment focused on material properties and their potential for protection.

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 explores the potential of oobleck (a cornstarch and water mixture) as a cost-effective ballistic testing medium. Through a series of tests with various calibers, from .22 LR to .50 BMG, the experiment demonstrates oobleck's surprising ability to slow and stop projectiles. The results highlight how factors like bullet velocity and surface area influence penetration depth, offering valuable insights into terminal ballistics.

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.

This video tests the effect of a .50 BMG round on a non-Newtonian fluid. The high-velocity impact causes the fluid to momentarily solidify, resulting in a dramatic explosion. Analysis shows the extreme energy transfer effectively 'squeezes' moisture from the fluid upon impact.