This video title, "Será que gelo consegue parar uma bala?" (Can ice stop a bullet?), explores the ballistic properties of ice when subjected to firearm projectiles. It investigates the potential of ice as a projectile barrier, a concept often seen in fictional scenarios but rarely tested in reality. The video likely delves into the physics of bullet impact and penetration through a frozen medium, possibly comparing different types of ice or bullet calibers to determine their effectiveness in stopping or deforming rounds.
This video explores the ballistic properties of a .50 caliber sniper rifle by testing its penetration capabilities against a significant number of hay bales. The experiment aims to determine the stopping power of this high-caliber weapon when faced with a large, unconventional barrier. It focuses on a practical, albeit unusual, test of firearm performance and the effects of ammunition on different materials.
This video features a comparative test between hollow point and full metal jacket ammunition, using watermelons as a ballistic medium. The experiment likely aims to demonstrate the terminal ballistics and expansion characteristics of each bullet type, providing a visual representation of how they perform upon impact. This type of informal testing is common within the firearms community for educational or entertainment purposes, offering a practical, albeit non-standardized, look at ammunition performance.
This YouTube video features a "bulletproof testing" of a beer keg using progressively larger caliber firearms. The demonstration spans from a .22 Long Rifle to a shotgun slug, all conducted at the "Yee Yee Farm" private gun range. The title and description highlight the escalating calibers and the everyday object being subjected to firearm impacts.
This video explores the surprising stopping power of a common household material, flour, when subjected to the immense force of a .50 BMG round. It delves into a practical, albeit unusual, experiment to determine the effectiveness of flour as a barrier against this powerful rifle caliber. The content is geared towards firearm enthusiasts interested in ballistic performance and material science in relation to weaponry.
This YouTube video compares the steel penetration capabilities of two popular rifle calibers: .223 Remington and .22-250 Remington. The testing focuses on mild steel (A529 grade 55) at a distance of 50 yards, aiming to determine if sheer velocity is the sole determinant of penetration power. The description also notes the inclusion of an affiliate link for a brass catcher and emphasizes that the tests are for entertainment and educational purposes, with a warning about the dangers of shooting steel.
This YouTube video directly compares the steel penetration capabilities of the 30-06 and .308 Winchester cartridges. The testing was conducted at a distance of 50 yards using Grade 55 mild steel. The description emphasizes that the tests are for entertainment and educational purposes, cautioning viewers against attempting such experiments due to inherent dangers. An affiliate link to Amazon is included for a brass catcher, and a safety reminder about securing workpieces during grinding is also present.
This YouTube Shorts video features a comparison between blue plastic .308 ammunition and a water jug. The content appears to be a visual demonstration, likely testing the ballistic performance or penetration capabilities of the ammunition against the water jug. Given the focus on ammunition and a clear comparison, it falls into the category of a range test or demonstration of equipment capabilities.
This video explores the ballistic resistance of rib-eye steaks against a 9mm projectile fired from a Sig Sauer P365. The description also includes instructions on how to enter a giveaway by subscribing to an email list on edwinsarkissian.com, requiring participants to be US residents over 21 with a clean background check. The video appears to be a unique intersection of firearms testing and culinary content.
This video explores the ballistic penetration capabilities of 2-liter bottles, a common household item, against bullets. While the specific firearm and caliber are not detailed in the provided information, the experiment likely involves testing how many bottles are required to stop projectiles from various common firearms. The content aims to offer an interesting and potentially educational demonstration of bullet stopping power using readily available materials. The creator's links suggest this is part of a broader series of ballistic tests and content creation.
This YouTube video, titled 'how much cheese does it stop a bullet?', explores the ballistic resistance of cheese. While the title and description lack specific firearm details, the premise strongly suggests a projectile testing scenario. The content likely involves shooting cheese with firearms to determine its effectiveness as a protective material, offering a unique and potentially entertaining take on ballistics and material science in a firearms context.
This video explores the ballistic properties of butter, specifically investigating how much of it would be required to effectively stop a bullet. It delves into a practical, albeit unusual, ballistic test scenario. The description provides links to the creator's website and Instagram for more content and engagement.
