This YouTube video, titled 'Como ficam as balas hollow point depois de disparadas' (How hollow point bullets look after being fired), focuses on the terminal ballistics of hollow point ammunition. The video likely demonstrates and analyzes the expansion and deformation of hollow point projectiles upon impact, showcasing their effectiveness in self-defense or hunting scenarios. The content aims to educate viewers on the physical changes undergone by these specific bullet types after discharge.
This video conducts a ballistic test to determine if tree trunks can stop bullets. Various handgun, shotgun, and rifle calibers are fired at pine tree sections. The test reveals that 9mm handgun rounds and all tested shotgun rounds are stopped by the wood. However, 5.56x45mm and 7.62x39mm rifle rounds penetrate the tree. Surprisingly, .308 rounds, despite having higher energy, also fail to penetrate, which the creators hypothesize is due to bullet deformation and subsequent loss of energy and trajectory deviation. The video invites viewer input on the .308's performance and suggestions for future tests.
Firearms expert Jonathan Ferguson investigates the Remington 760 "Gamemaster" rifle, exploring its potential role in the assassination of Martin Luther King Jr. The video debunks conspiracies surrounding the event, delves into the rifle's mechanics including its multi-thread locking lugs, magazine, sights, caliber, and bullet deformation. It also touches upon the civil suit retest and discusses the distance parameters of the shooting, aiming to separate fact from fiction regarding the infamous weapon and its association with James Earl Ray and MLK's assassination. The content acknowledges MLK's legacy and impact on the civil rights movement.
This YouTube video title, 'What A Bullet Looks Like After It Hits A Target! 😱🤯', suggests a visual exploration of bullet deformation and impact effects. While no specific firearms are mentioned, the content likely delves into ballistic gelatin or other target materials to demonstrate how projectiles change shape upon impact. The use of emojis indicates an emphasis on visual impact and potentially surprising results, appealing to viewers interested in the physics of ballistics and terminal performance.
This video delves into the principles of terminal ballistics using a firearm demonstration. It explains the creation and use of ordnance gelatine and Permagel for testing, focusing on the concepts of permanent cavity, temporary cavity, and penetration depth. The analysis highlights the performance characteristics of the 9x19mm cartridge, comparing it implicitly to larger calibers like .45 ACP, and discusses survivability of pistol bullet wounds. The demonstration also visually illustrates bullet deceleration and the temporary cavity effect within the gel block.
This video demonstrates the terminal ballistics of the SA80 L86A1 Light Support Weapon firing 5.56x45mm NATO ammunition into a 10% ballistic gelatine block. The content explains the scientific principles behind ballistic gel testing, including the formation of permanent and temporary cavities, and the importance of penetration depth. It details how gelatine simulates human tissue for wound track analysis and discusses the characteristics of the 5.56mm round, its origins with the AR-15/M16 platform, and its effectiveness when yawing. The description also provides a link to the Royal Armouries collection.
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