This video analyzes the Controlled Chaos version 3 bullet for the 300 Blackout cartridge. The description details the bullet's innovative two-part design, where the front section fragments into petals upon impact to create a large wound cavity, while the rear section maintains integrity for deep penetration. It also highlights design enhancements, including increased base weight and precise ogive diameter adjustments, aimed at improving accuracy and terminal ballistics. Performance metrics like ballistic coefficient, test barrel length, muzzle energy, and velocity at 100 yards are provided.
This YouTube video explores the intriguing question of whether it's possible to split a single bullet to hit two targets simultaneously. While the title is in Portuguese and poses a hypothetical, it directly relates to ballistics, projectile behavior, and firearm capabilities. The content will likely delve into physics, bullet construction, and potential fragmentation or ricochet scenarios. It appeals to firearm enthusiasts interested in the more technical and experimental aspects of ballistics and projectile dynamics.
This video investigates the behavior of bullet fragmentation when impacting steel targets. The content aims to answer questions about where these fragments end up, implying a focus on safety and ricochet analysis. While specific firearms or calibers are not detailed in the provided information, the context strongly suggests practical application and ballistics examination relevant to shooting enthusiasts and range operators.
This YouTube video explores what happens to frangible ammunition after it impacts a steel plate. The title suggests a focus on the ballistic behavior and fragmentation of such projectiles, likely involving testing and analysis of the resulting debris and impact on the steel. The video aims to provide visual and informative answers about the terminal ballistics of frangible rounds when interacting with hard targets.
This video investigates whether bullets ricochet off steel targets, demonstrating tests with various calibers and firearm types at close range, including 9mm, 10mm defensive and bear loads, .223 from a 16" AR-15, and .300 Winchester Magnum. It highlights the science behind bullet behavior and features of quality steel target systems, while explicitly cautioning viewers against replicating the experiments at home. The content explores bullet fragmentation and deflection degrees, concluding with product recommendations.
This video title suggests a ballistic test comparing rifle spalling (fragmentation of a projectile upon impact) against a Level III ballistic helmet. The core question is whether the helmet can withstand the fragments generated by a rifle round. The content likely involves a demonstration or analysis of projectile behavior and personal protective equipment's resistance capabilities. It aims to inform viewers about the effectiveness of Level III armor against rifle-induced fragmentation.
This video investigates the lethality of bullet fragmentation, specifically testing this phenomenon with the powerful .50 BMG caliber. The title suggests a scientific or experimental approach to understanding how .50 BMG rounds break apart upon impact and what implications this has for their effectiveness or terminal ballistics. Given the caliber, it's likely a visually impactful demonstration of ballistics gel or similar media being used for testing.
This video investigates the terminal ballistics of the .50 BMG round, specifically focusing on bullet fragmentation and its potential lethality. While the description provides minimal context, the title strongly suggests a technical examination of ammunition performance, likely involving testing and demonstration of the .50 BMG cartridge.
This video, the first in a series, explores the practical application of using 20" bases for both cardboard and steel targets. The primary focus is to address a common concern: whether bullet fragmentation from impacting steel will damage the cardboard placed in front of it. The presenter highlights their 20" round base for the A-DAP system as a valuable addition for range enthusiasts, aiming to enhance the shooting experience and fun factor.
This video features an ammo test of CCI Segmented Subsonic HP rounds fired from a Mossberg 715T rifle. The test involves shooting a chicken to evaluate the fragmentation performance of the ammunition, which is designed to split into three pieces upon impact. The creator also lists various gear they use in their videos, including steel targets, cameras, editing equipment, hearing protection, safety glasses, ballistic gelatin, scales, calipers, denim, rangefinders, rests, chronographs, and various target types.
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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