Add to ORKGThis exercise set requires the students to generate a computational model for rocket motion in one dimension in the absence of outside forces, and to compare the resulting velocity to the rocket equation (Δv=uln(mim)). From there, students calculate position and velocity data for both constant and Newtonian gravity, and implement models with both altitude-independent drag (D=12ρv2CdA), and one that considers the air density as a function of altitude
A Model was developed using JAVA Programming Language; this package simulates the motions of project...
An object moving through the air will experience several forces. These forces include the drag force...
A system was developed in the laboratory to study the range of several projectiles in the presence o...
In a realistic model for rocket dynamics, in the presence of atmospheric drag and altitude-dependent...
Among the main requirements for teaching tools for computer modeling of physical processes for futur...
Using applications of Newton\u27s Second Law, I modeled the motion of a rocket moving in the vertica...
This project uses Newton’s Second Law of Motion, Euler’s method, basic physics, and basic calculus t...
The Cambridge Rocketry Simulator can be used to simulate the flight of unguided rockets for both des...
<p>The Cambridge Rocketry Simulator can be used to simulate the flight of unguided rockets for both ...
Calculating rocket vertical flight performance using Newtons law to compute acceleratio
This paper describes a student team project using model rockets and engines to learn engineering sol...
This paper presents an analysis of aerodynamic characteristics of the rocket target for the final tr...
The third version of the Cambridge Rocketry Simulator consists of three parts to simulating a high p...
With the growing interest in space exploration, the need for professionals to be prepared for the jo...
The third version of the Cambridge Rocketry Simulator consists of three parts to simulating a high p...
A Model was developed using JAVA Programming Language; this package simulates the motions of project...
An object moving through the air will experience several forces. These forces include the drag force...
A system was developed in the laboratory to study the range of several projectiles in the presence o...
In a realistic model for rocket dynamics, in the presence of atmospheric drag and altitude-dependent...
Among the main requirements for teaching tools for computer modeling of physical processes for futur...
Using applications of Newton\u27s Second Law, I modeled the motion of a rocket moving in the vertica...
This project uses Newton’s Second Law of Motion, Euler’s method, basic physics, and basic calculus t...
The Cambridge Rocketry Simulator can be used to simulate the flight of unguided rockets for both des...
<p>The Cambridge Rocketry Simulator can be used to simulate the flight of unguided rockets for both ...
Calculating rocket vertical flight performance using Newtons law to compute acceleratio
This paper describes a student team project using model rockets and engines to learn engineering sol...
This paper presents an analysis of aerodynamic characteristics of the rocket target for the final tr...
The third version of the Cambridge Rocketry Simulator consists of three parts to simulating a high p...
With the growing interest in space exploration, the need for professionals to be prepared for the jo...
The third version of the Cambridge Rocketry Simulator consists of three parts to simulating a high p...
A Model was developed using JAVA Programming Language; this package simulates the motions of project...
An object moving through the air will experience several forces. These forces include the drag force...
A system was developed in the laboratory to study the range of several projectiles in the presence o...