This YouTube video, titled "Quantas páginas são necessárias pra segurar um tiro de .22lr?" (How many pages are needed to stop a .22lr shot?), investigates the penetration capabilities of .22 Long Rifle ammunition through paper. The video aims to provide a practical understanding of the ballistic performance of this common rimfire cartridge, likely through a series of tests or demonstrations. It is relevant for firearm enthusiasts interested in ammunition behavior and protective measures.
This video analyzes and compares the ballistic performance of five major World War II rifle cartridges: 7.7 Jap, 8mm Mauser, 7.62x54R, .303 British, and .30-06. Testing was conducted at 50 yards using 1939-1945 era ammunition, with velocities measured for FMJ rounds of varying weights (noting a discrepancy in the 7.7 Jap bullet weight). The comparison aims to determine the most superior cartridge ballistically, offering educational insights for firearms enthusiasts. The video also promotes related merchandise and an educational institution.
This YouTube video delves into the scientific principles behind match ammunition, specifically focusing on the intricacies of OTM (Open-Tipped Match) rounds. The content aims to break down the realities and performance characteristics of this type of ammunition, likely appealing to enthusiasts interested in precision shooting and ballistics.
This video discusses the unreliability of stated ammunition velocities often found on packaging. It emphasizes that real-world performance can differ significantly from advertised figures. While specific firearm models or calibers are not mentioned in the provided title and description, the core topic suggests a focus on ballistic data, ammunition performance, and potentially firearm testing or comparison where velocity is a key metric. The link provided likely leads to a vendor or manufacturer related to firearms or ammunition.
This video title suggests a destructive testing or comparison of the .460 S&W cartridge against concrete. It's likely to involve firing a firearm chambered in .460 S&W to observe its penetration capabilities and the effects on the concrete. The content would appeal to viewers interested in terminal ballistics, cartridge performance, and potentially firearm durability under extreme conditions. Specific details on the firearm used, the type of concrete, and the testing methodology would be crucial for a full assessment, but based on the title alone, it's a direct comparison of a powerful handgun round against a common building material.
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 YouTube video, titled "Federal 7mm Backcountry ammo ballistics explained by Federal engineer - FirearmsGuide.com," features an explanation of the ballistics of Federal's 7mm Backcountry ammunition. The video likely provides technical details and insights from a Federal engineer regarding the performance characteristics of this specific ammunition type. The description also highlights FirearmsGuide.com's extensive gunsmithing library, manual collection, and searchable gun and ammo reference guide, suggesting a focus on technical and informational content for firearms enthusiasts.
This video performs a ballistic gel test and review of the .17 HM2 (17 Mach 2) ammunition. The description includes links to various gear and products used in the video, such as steel targets, cameras, protective equipment, reloading tools, and shooting targets. The content focuses on evaluating the terminal performance of this rimfire cartridge.
This video analyzes the ballistics of two distinct calibers: 9mm and 7.5 FK. The content likely focuses on comparing their performance characteristics, such as velocity, energy, and potential effectiveness, providing insights for firearms enthusiasts interested in ammunition and cartridge performance.
This YouTube video titled "Barrel Length *Energy Test* (Does Size ACTUALLY Matter?)" explores the impact of firearm barrel length on projectile energy. While no specific firearms or calibers are mentioned in the provided title and description, the core theme revolves around a comparative analysis of how barrel length influences the performance of a projectile, likely focusing on ballistic data and terminal energy. This type of content is highly relevant to firearm enthusiasts interested in understanding the technical aspects of ballistics and firearm design.
This video compares the ballistic performance of three powerful handgun cartridges: 10mm Auto, .41 Magnum, and .44 Magnum. Conducted as part of 'Ultimate Barrier Testing,' the experiment involves shooting each caliber at four different targets, with each target contributing 25 points to a total possible score of 100. The testing was performed at a distance of 10 yards. The video specifies the barrel lengths for each firearm used: 6.6" for the 10mm, 4" for the .41 Magnum, and 5.5" for the .44 Magnum. The results will determine which cartridge is declared the winner. A disclaimer emphasizes that the tests are for entertainment and educational purposes only, and viewers should not attempt them at home. Safety protocols and firearm suitability checks are also stressed.
This YouTube video is a short focusing on ballistic gelatin testing of the 5.7x28mm cartridge. The primary goal is to demonstrate and evaluate how this specific ammunition performs when impacting ballistic gelatin, providing insights into its terminal ballistics characteristics. The content is directly related to firearm ammunition performance and testing methodologies.
