This YouTube video features a CZ bolt-action rifle, highlighted by the use of a high-speed camera to capture its operation. The title suggests a humorous or surprising element to the footage, indicated by emojis. The content likely showcases the mechanics and firing of the rifle in slow-motion detail.
This YouTube video, titled "BTS! How we get the best SLOWIES!", delves into the behind-the-scenes processes for achieving high-quality slow-motion footage. While the title and description don't explicitly mention firearms, the term "slowies" in a YouTube context, particularly with a "BTS" (Behind The Scenes) tag, often relates to showcasing the detailed mechanics or actions of firearms in slow motion. The content likely focuses on the technical aspects of capturing dynamic firearm events, such as cycling, recoil, or projectile impact, in a visually striking slow-motion format. This suggests an audience interested in the engineering and performance of firearms.
This YouTube video appears to showcase firearm actions or ballistics in extreme detail through ultra slow-motion footage. The title "Poetry in motion 🤤" and description "Every detail. Every movement. Captured in ultra slow motion. This is what perfection looks like frame-by-frame." suggest a focus on the aesthetic and mechanical aspects of firearms being fired or manipulated, emphasizing the visual impact of high-speed capture. It's likely an artistic or technical presentation rather than a review or instructional video.
This YouTube video features a slow-motion demonstration of a bullet impacting and shattering a light bulb. The title explicitly mentions 'Bullet Vs Light Bulb' and uses a firearm emoji, indicating a focus on the projectile's impact. The `#slomotion` hashtag highlights the use of slow-motion photography to capture the event in detail. While no specific firearm, caliber, or manufacturer is mentioned, the core concept revolves around ballistics and projectile dynamics, often explored in firearm enthusiast content.
This video aims to debunk myths surrounding the attempted assassination of former President Donald Trump by recreating the event using ballistics, real distances, and high-speed cameras. The content likely involves detailed analysis of projectile trajectories and firearm performance under specific conditions, offering an educational and investigative approach to a high-profile incident.
This video explores the consequences of firing incorrect calibers through mismatched firearms, utilizing high-speed cameras to capture the visual effects. The content is presented by Garand Thumb, who also promotes various sponsors including We The People Holsters for gun belts, Onward Research, and SDI School. Additional mentions include Patreon and social media links for broader engagement.
This video explores the impact of recoil on handgun accuracy, using high-speed camera footage to determine if muzzle rise occurs while the bullet is still in the barrel. It also investigates whether a loose grip can cause shots to hit higher on the target, aiming to provide a clear understanding of what happens immediately after the trigger pull.
This YouTube video focuses on a unique demonstration involving the inscription of the "WCMG" name using 50 grains of PETN Detonation Cord. The creator highlights the use of a high-speed camera capable of filming at 100,000 frames per second, suggesting a detailed visual examination of the detonation process. While the primary subject is explosives and their application, the context implies a potential interest in pyrotechnics and potentially related fields. The video's emphasis on capturing high-speed action suggests a focus on the visual spectacle of the event.
This video features a high-speed camera recording of a Dyno Nobel dynamite explosion impacting a ballistic head. The footage was captured at an astonishing 250,000 frames per second using Phantom high-speed cameras. The description explicitly thanks @BallisticHighSpeed for filming and @ballisticdummylab for providing the ballistic dummies used in the test. The video implies further experiments with these materials are forthcoming.
This video provides a detailed ballistic gel test of the Lehigh Defense Xtreme Defense 9mm 90-grain bullet. It specifically highlights the "Fluid Transfer Monolithic Flutes" by comparing a bullet with and without them. The test demonstrates how these flutes create a "massive energy dump," causing the bullet to stop within 18 inches of gel. A high-speed camera captures the wound cavity at 4000 frames per second. The description emphasizes that the projectiles have identical meplat diameter and ogive shape, with the only difference being the presence or absence of flutes, achieved by removing weight from the 'fluteless' version. The Xtreme Defense is described as a solid copper projectile utilizing advanced technology for deep, straight penetration and a permanent wound cavity exceeding that of most expanding bullets, with reduced negative effects from barrier penetration.
The YouTube video title "กล้องยิงเร็ว" translates to "Fast Shooting Camera" or "Speedy Shooting Camera." Without a description or transcript, it's difficult to ascertain the precise content. However, based solely on the title, it could relate to various aspects of shooting, such as high-speed camera equipment used for filming firearms in action, slow-motion analysis of shooting techniques, or potentially even a type of rapid-fire optic or sighting system. The ambiguity necessitates a broad interpretation for tag generation, leaning towards the application of cameras in a shooting context.
This YouTube Shorts video showcases a barrier test of a 300 HAM'R Protector Carbine using 110gr Controlled Chaos ammunition. The test utilizes high-speed camera footage and 24-inch gel blocks to demonstrate the projectile's performance and wound channel after penetrating various barriers, aiming to prove its ultimate effectiveness.
