This YouTube video poses a direct question about the penetration capabilities of a .308 caliber round through concrete. While the description is brief, the title clearly indicates a test or demonstration related to firearm performance against a specific material. The video likely explores ballistic data, potentially involving live-fire tests, to answer this question, appealing to firearm enthusiasts interested in the power and limitations of rifle calibers.
This video explores the bullet-stopping capabilities of lead. It's a practical demonstration that aims to educate viewers on the effectiveness of lead in ballistic scenarios. The description encourages viewers to check out sponsor products, clothing, and educational resources. The creator emphasizes that the content is for entertainment and educational purposes and should not be replicated.
This video conducts a ballistic gel test comparing Winchester Silvertip ammunition in .32 and .380 Auto calibers. The test utilizes heavy clothing simulation and features two handguns: a Smith & Wesson Bodyguard 2.0 and a Beretta Tomcat. The content focuses on evaluating the self-defense performance of these ammunition types and firearm platforms.
This video features a ballistic gel test and review of CorBon 9mm +P Glaser Safety Slug self-defense ammunition. The test includes simulating heavy clothing penetration using a Glock 17 and a Canik Mete MC9. The video emphasizes that all shooting is conducted in a controlled, private environment and does not offer firearms or ammunition for sale.
This YouTube video analyzes the penetration capabilities of 9mm bullets through sheetrock and studs. It aims to provide a visual understanding of how different ballistic behaviors occur when a 9mm projectile encounters common building materials. The video likely includes practical demonstrations and explanations relevant to understanding terminal ballistics and projectile behavior in various environments.
This video explores the question of whether a knitting needle can be a deadly projectile. Through practical testing, the content aims to demonstrate the potential lethality or ineffectiveness of such an object fired from a firearm. The analysis likely involves a firearms context to assess penetration and impact, making it relevant to those interested in ballistics and unconventional projectile testing.
This YouTube video provides a tutorial on how to make ballistic gel transparent. The description indicates a practical demonstration or guide related to ballistic gel preparation, likely for testing purposes or educational content within the firearms community. The title is in Portuguese, suggesting the content is targeted towards Portuguese-speaking audiences interested in firearm-related ballistics.
This YouTube video, titled "GREEN TIP Into Ballistic Gel," focuses on testing the terminal ballistics of green tip ammunition when fired into ballistic gel. While the specific firearm and caliber are not explicitly stated, the title implies a projectile impact test. The video also promotes the creator's social media presence on Instagram and Patreon, along with a contact email.
This video explores the ballistic capabilities of common objects by testing their ability to stop bullets, specifically focusing on whether a streetlight pole can defeat firearm projectiles. The content likely involves live-fire testing and analysis of bullet impact and penetration.
This video features a visually striking experiment where a .50 BMG round is fired into ballistic gel containing three glow sticks. The impact, occurring at 50 yards in a darkened environment, creates an explosion of glowing chaos. The description highlights the unique visual result and encourages viewers to stay until the end to witness the glow stick reaction, also prompting suggestions for future gel experiments.
This video explores the ballistic capabilities of a .50 caliber sniper rifle by testing its penetration power against a substantial barrier of Lego bricks. It aims to provide a visual demonstration of the immense force generated by such a powerful firearm and how it interacts with a common, albeit unconventional, material. The experiment likely offers a unique perspective on projectile energy and material resistance.
This video explores the creation and performance of a $0.30 homemade 7/8 oz shotgun slug, made by melting down birdshot. The creator compares its cost, performance, recoil, and lethality against factory-produced slugs. The video details the production process and offers a damage test using a cylinder block and a ballistic gel test. It also features a sponsor segment for 945 Industries EDC bags. The content aims to educate viewers on saving money and understanding the capabilities of hand-cast ammunition.
