Missiles Trajectory Simulation with Realistic Physics in Python

Simulate the realistic trajectory of missiles using physics-based models in Python. This project provides a practical demonstration of projectile motion, air resistance, and basic aerodynamics—ideal for students, researchers, and defense tech enthusiasts.

What You Get:

Fully commented Python code for trajectory simulation
PDF technical report with equations, assumptions, and outputs
Visual plot of missile paths with Matplotlib
Editable source files (Jupyter notebook or .py script)

Bonus: Example parameters for custom simulations

Use Cases:

Engineering or physics class projects
Defense simulation prototypes
Research in projectile dynamics
Visualization of missile path predictions

Pay

Unlock this simulation project and learn how to predict projectile paths like a rocket scientist!

Product Name

Missiles Trajectory Simulation

Creator

Abudho Umuro Orto

Programming Language

Python

Project Format

Jupyter Notebook (.ipynb), Python Script (.py), PDF Report (.pdf), and Visual Outputs (.png, optional)

Project Level

Intermediate - Advanced

Key Topics Covered

Projectile Motion, Air Resistance Modeling, Physics-Based Equations of Motion, Data Visualization with Matplotlib, and Parameter Tuning

Target Audience

Data Science Students, Aerospace & Mechanical Engineering Students, Python Enthusiasts, Educators and Researchers, Defense and Simulation Hobbyists

Estimated Completion Time

2 --- 4 hours

Software Requirements

Python 3.x, Jupyter Notebook; NumPy; Matplotlib; SciPy

Price

Size

1.02 MB

Length

6 pages