The moment he hit enter, the Google logo didn’t just fall. It dripped . The “G” stretched like green mucus, the two “o”s merged into a lazy, wobbling blob, and the search bar sagged like a half-melted candy bar. But the real surprise came when he tried to type. Instead of letters, his keystrokes squeezed out neon globs that splattered across the screen—and then kept going.
When a user visits the interactive page, the immediate effect is a simulated collapse: The heavy Google logo tumbles from its pedestal.
is a famous interactive web experiment created by developer Mr.doob (Ricardo Cabello) that turns the standard Google homepage into a physics-driven playground. Google Gravity Slime Mr Doob
So go ahead, make a mess. Break the internet.
The "slime" effect is achieved through simplified fluid dynamics algorithms. The code tracks a grid of velocity vectors across the screen. When an object (or the user's mouse) moves through the grid, it pushes the fluid, creating ripples, vortices, and wakes that look and feel like real, viscous liquid. Why Did It Go Viral? The moment he hit enter, the Google logo didn’t just fall
While the original version of Google Gravity may become increasingly difficult to access through the official "I'm Feeling Lucky" method, its legacy is secure through sites like elgooG. As web standards evolve, future versions will likely continue to adapt, incorporating even more sophisticated physics or virtual reality elements.
This variation expands the concept into the third dimension. Users can use their cursor to rotate a 3D freeform surface experiencing the gravity effect, built upon the ideas seen in the slime and lava variations. But the real surprise came when he tried to type
To understand the "slime" and fluid variations that followed, one must first look at the foundation: the original experiment. Developed by Mr.doob and featured on the legendary Chrome Experiments platform, Google Gravity was designed to show off the hidden muscle of early HTML5 and JavaScript physics engines.
: A high-performance simulation of 1 million particles moving fluidly across the screen. How to Access Direct Link : You can find the original project on the Mr.doob Projects Page Enhanced Version : Sites like