In a realistic model for rocket dynamics, in the presence of atmospheric drag and altitude-dependent gravity, the exact kinematic equation cannot be integrated in closed form; even when neglecting friction, the exact solution is a combination of elliptic functions of Jacobi type, which are not easy to use in a computational sense. This project provides a precise analysis of the various terms in the full equation (such as gravity, drag, and exhaust momentum), and the numerical ranges for which various approximations are accurate to within 1%. The analysis leads to optimal approximations expressed through elementary functions, which can be implemented for efficient flight prediction on simple computational devices, such as smartphone applicat...
Copyright © 2018 AIAAAerodynamic forces and moments are significant perturbations on low-Earth-orbit...
The accurate modelling and simulation of vehicle dynamics is a fundamental prerequisite for the desi...
This exercise set requires the students to generate a computational model for rocket motion in one d...
In a realistic model for rocket dynamics, in the presence of atmospheric drag and altitude-dependent...
Topical observations of the thermosphere at altitudes below 200 km are of great benefit in advancing...
The analytic approach to determine the optimal conditions for maximizing altitude of a sounding rock...
Using applications of Newton\u27s Second Law, I modeled the motion of a rocket moving in the vertica...
Abstract: In this article we present a simple but elegant numerical calculation to study the motion ...
The calculation of rocket trajectories is most often performed using purely numerical methods that a...
In the realm of low-thrust spacecraft trajectories, there are many different ways to solve for optim...
Calculating rocket vertical flight performance using Newtons law to compute acceleratio
This project uses Newton’s Second Law of Motion, Euler’s method, basic physics, and basic calculus t...
This thesis research has focused on developing an analytical solution for low-thrust transfer orbits...
This papers introduces an analytic method to define multistage launcher trajectories to determine th...
This paper presents obtained results from computer simulations in order to analyze the flight path o...
Copyright © 2018 AIAAAerodynamic forces and moments are significant perturbations on low-Earth-orbit...
The accurate modelling and simulation of vehicle dynamics is a fundamental prerequisite for the desi...
This exercise set requires the students to generate a computational model for rocket motion in one d...
In a realistic model for rocket dynamics, in the presence of atmospheric drag and altitude-dependent...
Topical observations of the thermosphere at altitudes below 200 km are of great benefit in advancing...
The analytic approach to determine the optimal conditions for maximizing altitude of a sounding rock...
Using applications of Newton\u27s Second Law, I modeled the motion of a rocket moving in the vertica...
Abstract: In this article we present a simple but elegant numerical calculation to study the motion ...
The calculation of rocket trajectories is most often performed using purely numerical methods that a...
In the realm of low-thrust spacecraft trajectories, there are many different ways to solve for optim...
Calculating rocket vertical flight performance using Newtons law to compute acceleratio
This project uses Newton’s Second Law of Motion, Euler’s method, basic physics, and basic calculus t...
This thesis research has focused on developing an analytical solution for low-thrust transfer orbits...
This papers introduces an analytic method to define multistage launcher trajectories to determine th...
This paper presents obtained results from computer simulations in order to analyze the flight path o...
Copyright © 2018 AIAAAerodynamic forces and moments are significant perturbations on low-Earth-orbit...
The accurate modelling and simulation of vehicle dynamics is a fundamental prerequisite for the desi...
This exercise set requires the students to generate a computational model for rocket motion in one d...