Author: Bryan Litz
There's a lot of good information available on long range shooting which explains how to correct trajectories for drop, wind deflection, etc. This book takes it a step further and discusses how various uncertainties affect your hit percentage. Weapon Employment Zone (WEZ) analysis is a method for showing how effective a weapon system is throughout its range of employment in terms of hit percentage. WEZ analysis is explained, and applied throughout the book to show how effectiveness can be improved thru various means. Accuracy and Precision for Long Range Shooting is written in the same easy to understand language that made Applied Ballistics for Long Range Shooting such an enjoyable and effective book. Long range shooting can be very technical. However, author Bryan Litz, communicates these complex ideas in layman terms, so most average shooters can master the subject with little difficulty.
Ever wonder how much spin drift, Coriolis affect, or using G1 vs. G7 BC's affect your chances of hitting a target? In Chapter 10 for example, you'll learn that ignoring spin drift in ballistic calculations reduces hit percentage on a 10" target from 21% to 15% at 900 yards for a specified environment and cartridge.
In Chapter 6, you can see that reducing muzzle velocity variation from 20 fps Standard Deviation (SD) to 10 fps SD improves hit percentage on a 5" circle at 500 yards from 83% to 93%. These are just two brief examples of the types of analysis used throughout the book.
The book is broken into 3 parts: Precision, Accuracy, and WEZ analysis.
Part 1 focuses on Precision, which explores how hit percentage is affected by variables affecting group size, including:
Part 2 focuses on Accuracy, which is how well the group is centered around the aim point. Chapters in the Accuracy section include:
Part 3 focuses on Weapon Employment Zone (WEZ) analysis including:
Weight: 1.5 lb