The article compares the results of trajectory computation for a 35mm projectile using two forms (explicit and implicit) of the modified point-mass trajectory model. All necessary ammunition parameters (aerodynamic coefficients, dimensions, mass etc.) and initial conditions for differential equations are provided. The results of numerical integration (using non-stiff fourth-order Runge-Kutta solver) are presented in form of projectile trajectories projections onto vertical and horizontal planes. Data tables comparing both models in terms of projectile position and velocity in chosen time steps are also attached
In this paper, an approximate closed-form solution for trajectories of ballistic projectiles is deri...
The fire-control solution is an important element of any modern weapon system, providing precise aim...
Abstract The present study investigates the epicyclic pitching and yawing motion phenomenon of spinn...
The article compares the results of trajectory computation for a 35mm projectile using two forms (ex...
The article compares the results of trajectory computation for a 35 mm projectile using two forms (e...
Various models of a projectile in a resisting medium are used. Some are very simple, like the “point...
In external ballistics of a conventional spin-stabilised artillery projectile, there are a numberof ...
The thesis traces the history of missile aerodynamic prediction methods and defines the aerodynamic ...
For spinning projectiles, the 6 Degree-of-Freedom model can closely capture their trajectories with ...
In the article, the flight trajectory of a material point in the atmosphere is considered. For its c...
The work shows computational results of the effect of a simplified mathematical model of the flight ...
The main objective of this article is to obtain equations of motion of the spin–stabilized projectil...
In the paper the three different mathematical models of motion of a spin-stabilized, conventional ar...
Balistički model MPMM (engl. modified point mass model) služi za izračunavanje svih elemenata balist...
A full six degrees of freedom (6-DOF) flight dynamics model is proposed for the accurate prediction ...
In this paper, an approximate closed-form solution for trajectories of ballistic projectiles is deri...
The fire-control solution is an important element of any modern weapon system, providing precise aim...
Abstract The present study investigates the epicyclic pitching and yawing motion phenomenon of spinn...
The article compares the results of trajectory computation for a 35mm projectile using two forms (ex...
The article compares the results of trajectory computation for a 35 mm projectile using two forms (e...
Various models of a projectile in a resisting medium are used. Some are very simple, like the “point...
In external ballistics of a conventional spin-stabilised artillery projectile, there are a numberof ...
The thesis traces the history of missile aerodynamic prediction methods and defines the aerodynamic ...
For spinning projectiles, the 6 Degree-of-Freedom model can closely capture their trajectories with ...
In the article, the flight trajectory of a material point in the atmosphere is considered. For its c...
The work shows computational results of the effect of a simplified mathematical model of the flight ...
The main objective of this article is to obtain equations of motion of the spin–stabilized projectil...
In the paper the three different mathematical models of motion of a spin-stabilized, conventional ar...
Balistički model MPMM (engl. modified point mass model) služi za izračunavanje svih elemenata balist...
A full six degrees of freedom (6-DOF) flight dynamics model is proposed for the accurate prediction ...
In this paper, an approximate closed-form solution for trajectories of ballistic projectiles is deri...
The fire-control solution is an important element of any modern weapon system, providing precise aim...
Abstract The present study investigates the epicyclic pitching and yawing motion phenomenon of spinn...