fschumann0

fschumann0 / orbitals

Public

This repository includes the raw code for the quantum orbital simulation of the hydrogen atom.

17
0
100% credibility
Found Feb 23, 2026 at 15 stars -- GitGems finds repos before they trend. Get early access to the next one.
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AI Analysis
Python
AI Summary

An interactive program that visualizes the probability clouds of electrons in hydrogen atom orbitals using animated particles in 2D and 3D.

How It Works

1
🔍 Discover the Simulator

You find this exciting GitHub page with pictures of glowing, swirling electron clouds around a hydrogen atom.

2
📥 Bring It Home

Download the single ready-to-run file to your computer.

3
▶️ Launch the Window

Start the program and watch a colorful display pop up showing dancing particles that represent electron positions.

4
See the Electron Cloud

Tiny dots move and glow in patterns, bringing the invisible world of quantum orbitals to life right before your eyes.

5
🔢 Customize Orbitals

Type simple numbers for energy, shape, and direction to generate new swirling patterns instantly.

6
🌐 Switch to 3D View

Click a button to enter full 3D mode, then drag to rotate and scroll to zoom into the beautiful cloud.

🎉 Explore Quantum Magic

Now you can interactively play with and understand the mysterious shapes where electrons hide in atoms, making science fun and real.

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Star Growth

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AI-Generated Review

What is orbitals?

Orbitals simulates hydrogen atom electron probability distributions as swarms of animated particles in real-time 2D or 3D views, built in Python with Pygame for interactive rendering and NumPy/SciPy for quantum wavefunctions. Users enter quantum numbers n, l, m via text inputs, hit generate to transition states, and use mouse drag for 3D rotation, wheel zoom, or fullscreen toggle. This GitHub repository includes all the files and folders associated with a project, plus each file's revision history for easy forking.

Why is it gaining traction?

It hooks with fluid particle motion mimicking orbital dynamics, an orbitals switch between 2D slices and rotatable 3D, and instant state changes without restarts—far snappier than static plots. Devs appreciate the tweakable params like drift and speed for custom feels, evoking an orbitals game vibe. Ties into repository GitHub VSCode for quick edits, with GitHub Actions potential for builds.

Who should use this?

Quantum chemistry students visualizing states for homework; physics teachers demoing orbitalschleifer precision in lectures; Pygame tinkerers prototyping interactive sims or orbitals service tools.

Verdict

At 17 stars and 1.0% credibility score, it's a raw single-script prototype with good README screenshots but no tests, web version, or polish—expect tweaks. Grab it if you need a fast quantum viz starter in repository GitHub VSCode, not production demos.

(178 words)

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