This video tests the penetration capabilities of AR550 steel using a .300 Winchester Magnum (300WM) with M61 ammunition at close range. The description strongly advises against attempting this at home, emphasizing that it is for testing purposes only. The content likely focuses on the destructive power of the ammunition against a specific type of ballistic steel.
This video tests the durability of AR550 and AR500 steel targets by shooting them with M61 300 Winchester Magnum Armor Piercing rounds. The creators aim to debunk claims that they gaslight viewers about their target quality, demonstrating their products' resilience against powerful ammunition. The video also includes a look at the rifle used, comparisons of target impacts, and a discussion about the current state of the gun community, offering a chance to win a prize. Recommended products and contact information for the company are also provided.
This video, titled "Choose The Right Tool - 300WM Ain't It!", appears to be a discussion or critique of the .300 Winchester Magnum (300WM) caliber, suggesting it's not the optimal choice for long-range precision shooting. The description promotes masterclasses for learning long-range precision through the "Precision Rifle Network" on Skool.com, indicating an educational focus on rifle selection and application for precision shooting.
This video tests the effectiveness of bulletproof glass by firing various calibers at it, starting with .22 LR and progressing through 9mm, 10mm, 5.56mm, and .308. The test then escalates to calibers beyond the glass's rating, including 300 Winchester Magnum and .50 BMG, to determine if it can withstand these powerful rounds. The description also includes links to the company, merchandise, the specific glass used (Armitek), and the content creator's social media.
This YouTube video, titled "CALL of BOOTY | Ruger Percision 300 WIN", appears to be focused on a specific firearm, the Ruger Precision Rifle chambered in .300 Winchester Magnum. The description emphasizes that the content is for documentary and educational purposes, filmed in a safe and controlled environment. It also includes information about channel memberships and financial support methods.
This YouTube video addresses a common concern among firearm enthusiasts: projectile fragmentation (frags) when shooting a .300 Winchester Magnum (300WinMag) round at steel targets. The title and description explicitly state that when using the correct steel targets and following recommended shooting practices, fragments should not ricochet back towards the shooter. The video aims to clarify this safety aspect and provide guidance on appropriate steel target usage.
This video explores the common question of whether bullets actually speed up after leaving the barrel. The creators conduct a physics-based experiment at the range using chronographs to test this phenomenon with different calibers. They aim to verify or disprove "second grade physics lessons" and share their findings, which are described as "bubbly." The video delves into the science behind bullet velocity and whether acceleration occurs post-muzzle, featuring tests with 300 Winchester Magnum and 223 Remington. It also touches on why this topic is relevant and teases upcoming content.
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 explores the experimental creation of subsonic ammunition for the 300 Winchester Magnum caliber. The creator, describing themselves as a 'mad scientist,' details their process of developing subsonic loads by adjusting powder charges, aiming to achieve a quieter shooting experience, often referred to as 'Hollywood' quiet. The video includes reference shots with standard ammunition, examines the performance on a steel target, and provides a brief explanation of what constitutes subsonic ammunition. A discount code for the steel target system used is also offered towards the end.
This video tests the durability of a "Warranty Claim" steel target plate against 300 Winchester Magnum armor-piercing (AP) and armor-piercing incendiary (API) rounds. The "Don't Try This At Home" title suggests a high-impact, potentially destructive test. The description emphasizes questioning whether the 300 Win Mag caliber was responsible for a "big hole" and promotes the purchase of high-quality steel targets from tatargets.com, offering a discount code.
This video provides an overview of the Bergara B-14 HMR Wilderness rifle chambered in 300 Win Mag. It focuses on presenting the rifle, likely highlighting its features and specifications for potential buyers or enthusiasts interested in this particular model and caliber combination. Given the title and description, the content is expected to be informative for those researching long-range hunting or precision shooting platforms.
This video tests the penetration capabilities of 300 PRC and 300 Winchester Magnum ammunition against steel targets, specifically focusing on whether these calibers can create a hole in "mild steel" and challenging the common assumption about "steel is steel." The experiment aims to debunk the idea that 300 WM was responsible for a specific hole, suggesting a surprising outcome. It features various types of ammunition, including Hornady Outfitter, and showcases different steel target systems from TATargets, offering discount codes and product links.
