If you are interested, I can provide a on how to build a working car in Algodoo or explain how to write your first basic Thyme script to automate an object. Let me know how you would like to proceed! Share public link
In the late 2000s, a freeware program took the internet by storm. It allowed users to draw a circle, watch it fall under gravity, slice it in half, attach a motor, and create complex machinery in seconds. That program was , an innovative 2D physics sandbox that later evolved into Algodoo .
: Inject water and other liquids into environments to test displacement, buoyancy, and flow.
significantly increases student motivation in physics classes. Intuitive Controls phun algodoo
The transition from to Algodoo represents one of the most successful migrations of a student passion project into a world-class educational tool. Originally created by Emil Ernerfeldt in 2008 as a Master’s thesis at Umeå University, Phun became a viral sensation for its "cartoony" yet scientifically accurate 2D physics simulations. Today, as Algodoo , it serves as a cornerstone for STEM education, used by teachers and hobbyists alike to bridge the gap between play and complex physics modeling. The Journey from Phun to Algodoo
Algodoo's latest versions (v5.0 as of 2023) include:
Phun Algodoo has a wide range of applications in education, from primary school to university level. Here are some examples: If you are interested, I can provide a
While Algodoo retains the spirit of Phun, the transition brought several improvements:
At its core, Algodoo is a 2D physics-based freeware sandbox from Algoryx Simulation AB, released on , as the direct successor to the popular physics application Phun. It's presented as a learning tool, an open-ended computer game, an animation tool, and an engineering platform all rolled into one.
Phun quickly garnered a massive online following due to its: Free availability for personal use. Intuitive user interface. Highly sophisticated multi-physics engine. It allowed users to draw a circle, watch
Whether you are an educator explaining mechanical energy, a game developer testing mechanics, or a casual creator building complex marble runs, understanding the journey from Phun to Algodoo reveals why this software remains a gold standard in physics simulation. 1. The Origins: From Phun to Algodoo
The story begins in 2007 at Umeå University in Sweden. A master's student in Physics, Emil Ernerfeldt, wanted to create a piece of software that was equal parts educational tool and addictive toy. His goal was to allow users to draw shapes, hinges, chains, and motors with a mouse, then watch those objects react to gravity, friction, and restitution in real-time.
Born from a Swedish student's master's thesis and evolving into a globally recognized educational tool, Algodoo is a 2D physics sandbox that transforms complex scientific principles into an interactive, cartoonish, and deeply engaging experience. Whether you are a teacher looking to demonstrate Newton's laws, a student wanting to build a virtual Rube Goldberg machine, or just someone who enjoys creative problem-solving, Algodoo offers a uniquely accessible and powerful platform.