Particle Systems — Image Pack

Image Pack

5 high-resolution 4K static renders of mathematical particle simulations: vortex tunnel, nebula cloud, electric storm, spiral galaxy, and interference wave. Each image generated from 1 million particles. 2160×2700px JPEG, instant download.

Price

$8.00

Type Image Pack

Collection Particle Systems

Print size Up to 25×14" · 4K · 300 DPI

File Size ZIP download

License Personal use

Delivery Instant download after purchase

Downloads Lifetime ownership · up to 3 downloads

Secure payment via PayPal · Instant download · Personal license

Instant download Lifetime ownership 4K resolution

About the craft

Every piece in this bundle is rendered from real mathematical equations — no AI, no procedural noise filters, no stock libraries. Generated frame by frame from the underlying systems by a small studio of mathematicians and engineers.

Included

Bundle Contents

5 items

⤢

Particle Vortex

1M particles forming a perspective tunnel vortex — deep purple to cyan

2160×2700 Image

⤢

Particle Nebula

1M particles in a 3D nebula cloud at 30° tilt — amber and orange

2160×2700 Image

⤢

Particle Storm

1M particles in a chaotic interference field — electric blue and white

2160×2700 Image

⤢

Particle Galaxy

1M particles in a two-arm logarithmic spiral galaxy — warm gold

2160×2700 Image

⤢

Particle Wave

1M particles forming a standing wave interference pattern — teal

2160×2700 Image

The mathematics

About Particle Systems

Particle systems treat each pixel as a discrete object responding to a mathematically defined force field — gravity wells, vortex centers, electromagnetic potentials, wave interference. Tens of thousands of particles released into the field trace continuous trajectories that, viewed in aggregate, reveal the shape of the field itself. The technique sits at the boundary of physics simulation and generative art. Every image and animation in this collection is the result of a live simulation: F = f(x, y, t) evaluated at each particle's position, integrated over time, with each particle leaving a trail proportional to its velocity. No two runs are identical, and yet the field structure remains unmistakable beneath the chaos.

F = f(x, y, t)

Particle Systems — Image Pack

Bundle Contents

About Particle Systems

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