Videos tagged with Drop Chart

This video clarifies the distinction between a dope card and a drop chart in ballistics. A dope card is based on empirical data from previous engagements, recording adjustments made at specific distances. In contrast, a drop chart is generated by a ballistic solution, utilizing inputs like environmental conditions to provide a more precise prediction of bullet trajectory.

This content discusses the limitations of using traditional drop charts for long-range shooting beyond 600 yards, especially when environmental factors like temperature and elevation change. It highlights the advantage of ballistic rangefinders that incorporate wind data into their calculations, improving accuracy by accounting for factors like arrow jump.

This video clarifies the distinction between a DOPE (Data On Previous Engagement) card and a drop chart in long-range shooting. A DOPE card is derived from actual range data collected from previous shots at specific distances, while a drop chart is generated by a ballistic solver using precise inputs. The latter offers greater accuracy and flexibility, allowing for adjustments based on varying environmental conditions like elevation and temperature.

This episode delves into the evolution of long-range shooting data management, differentiating between DOPE cards and drop charts. It emphasizes the superiority of calculated drop charts, especially when 'true' with real-world data, and highlights the advancements from early ballistic solvers to modern smart rangefinders and integrated rifle systems. The discussion underscores the importance of understanding ballistic principles for accurate long-range engagement, advocating for systems that simplify the shooter's workflow while maintaining precision.

This episode of Long Range Pursuit showcases a challenging long-range shooting competition in Utah, featuring unknown targets and distances, coupled with a demanding seven-mile run. Participants' scores are based on both speed and accuracy, emphasizing efficient target engagement. The video also includes a segment on utilizing the G7 Ballistics program to create custom field cards for ballistic corrections, highlighting the importance of accurate data and practical application in real-world shooting scenarios.

This video follows a mountain goat hunt in British Columbia, showcasing long-range shooting techniques and rifle setup. It details how to zero a Gunwerks rifle's BDC turrets using a G7 scope and calculate ballistic drop charts with wind compensation via the G7 website. The hunt itself highlights the challenges of steep terrain, variable winds, and spotting game at extended distances, culminating in a successful shot at approximately 575 yards.

This video provides an expert-level guide on validating rifle trajectory and calculating true muzzle velocity using the G7 Ballistics Program. The process involves setting up a detailed load profile, configuring environmental and sighting data, generating a drop chart, and then performing live-fire validation at extended ranges (600 and 950 yards). By measuring actual bullet impact and inputting this data back into the G7 software, users can precisely determine their rifle's true muzzle velocity, leading to more accurate ballistic solutions and custom turrets. The instruction is delivered with high authority, demonstrating professional-level knowledge.

This guide details how to create a custom ballistic drop chart using the G7 Ballistics program, as demonstrated by Aaron Davidson. It covers essential steps from logging in and inputting precise load and environmental data to generating and validating the final field card. The process emphasizes accuracy through trajectory validation and practical range testing, offering both simple and comprehensive chart options for field use.

This video demonstrates how to calculate and print a custom drop chart. While the specific firearms or calibers are not mentioned in the provided title and description, the process of creating a drop chart is a common practice for long-range shooting and ballistics calculations. This tool is essential for accurately hitting targets at various distances, especially when considering factors like bullet drop, windage, and environmental conditions. The tutorial likely guides viewers through the necessary steps and software or methods to generate personalized ballistic data for their specific loads and firearms.