Asteroid Watch Predict, Simulate, Prepare

Track celestial threats in real-time. Run impact simulations and prepare evacuation strategies.

Simulation Dashboard

Configure asteroid parameters and run impact simulations

Asteroid Parameters

Select Asteroid

Diameter (meters)

Velocity (km/s)

Entry Angle (degrees)

Impact Results

Impact Energy: 420 MT TNT

Crater Size: 2.8 km

Primary Zone: 5 km radius

Secondary Zone: 15 km radius

Evacuation Zone: 50 km radius

3D Impact Visualization

3D Globe with Impact Trajectory

Three.js WebGL Canvas

Population Heatmap

Meteor Crater

Arizona, USA

Flagstaff Impact

Arizona, USA

Winslow Crater

Arizona, USA

Risk Maps

Interactive evacuation zones and impact assessment

Impact Zone Visualization

Impact Zone Secondary Zone Evacuation Zone

Primary Impact Zone

5km radius - Total destruction

Secondary Zone

15km radius - Severe damage

Evacuation Zone

50km radius - Evacuate immediately

Evacuation Routes

Affected Population

Warning Systems

Emergency alert protocols

Evacuation Routes

Safe passage coordination

Zone Boundaries

Risk assessment markers

Learn

Discover the science behind asteroid impacts

Famous Impacts

Chicxulub Impact

66 million years ago

The asteroid that ended the dinosaurs. 10km diameter, 100 million MT impact energy.

Tunguska Event

1908 - Siberia, Russia

Airburst explosion flattened 2,000 km² of forest. Estimated 50m asteroid.

Chelyabinsk Meteor

2013 - Russia

20m meteor injured 1,500 people. Released 400-500 kilotons of energy.

Impact Timeline

FAQ

How do we track asteroids?

NASA's Near-Earth Object program uses ground-based telescopes and radar systems to detect and track asteroids.

What happens during entry?

Atmospheric compression creates intense heat. Asteroids may explode mid-air or impact the surface.

How is damage estimated?

Based on asteroid size, velocity, entry angle, and impact location using Monte Carlo simulations.

Quick Facts

NEO Detection: 95% complete
Potentially hazardous: 2,000+
Next close approach: 2029 Apophis

Interactive Learning

Virtual classroom experiences

Study Resources

Comprehensive learning materials

Research Tools

Advanced space science data

About Asteroid Watch

Mission & Vision

Asteroid Watch is a cutting-edge platform designed to predict, simulate, and prepare for potential asteroid impacts. We combine real-time NASA data with advanced simulation technology to provide accurate risk assessments.

Real-time Monitoring

Continuous tracking of near-Earth objects

Advanced Simulations

Monte Carlo impact modeling

Evacuation Planning

Dynamic risk zone mapping

Technology Stack

React

Frontend framework

Three.js

3D visualizations

Python

Backend API (Flask)

TailwindCSS

Styling framework

Data Sources

NASA CNEOS Live

SBDB API Live

NeoWs API Live

Population Data Mock

Development Status

Frontend 90%

API Integration 75%

Testing 60%

NASA APIs Documentation GitHub Contact