Marksman Ballistic Analyst is dedicated to the scientific evaluation of projectile dynamics, atmospheric influence, trajectory modeling, and terminal impact behavior. Our work emphasizes measurable physics, engineering principles, and analytical documentation to support education and technical understanding.
Ballistics is divided into three primary disciplines: internal, external, and terminal. Each phase describes a measurable and repeatable scientific process involving pressure, velocity, environmental resistance, and energy transfer.
Mathematical prediction of projectile path based on velocity, angle, and gravity.
Air density, humidity, temperature, and wind affect stability and drift.
Rotational forces produced by rifling stabilize the projectile in motion.
Energy transfer upon impact is proportional to mass and velocity squared.
Penetration depth is influenced by projectile structure and target density.
Expansion or fragmentation determines terminal behavior outcomes.
Ongoing analytical documentation, simulation data, and technical references are maintained to support education and professional study in ballistic science.
For educational collaboration, technical consultation, or research inquiries, please contact Marksman Ballistic Analyst through the official domain.