Prompt: We want to reconstruct "A project to find the fundamental theory of physics" by means of Pharo Smalltalk / Glamorous Toolkit. WOLFRAM, Stephen, 2020. A project to find the fundamental theory of physics. First edition. Champaign, Illinois: Stephen Wolfram, LLC. ISBN 978-1-57955-035-6. “The Wolfram Physics Project is a bold effort to find the fundamental theory of physics. It combines new ideas with the latest research in physics, mathematics and computation in the push to achieve this ultimate goal of science. Written with Stephen Wolfram’s characteristic expository flair, this book provides a unique opportunity to learn about a historic initiative in science right as it is happening. A Project to Find the Fundamental Theory of Physics includes an accessible introduction to the project as well as core technical exposition and rich, never-before-seen visualizations”-- Explain and give examples to implement How It Works OK, so how does it all work? Iʼve written a 448‐page technical exposition (yes, Iʼve been busy the past few months!). Another member of our team (Jonathan Gorard) has written two 60page technical papers. And thereʼs other material available at the project website. But here Iʼm going to give a fairly non‐technical summary of some of the high points. Itall begins with something very simple and very structureless. We can think of it as a collection of abstract relations between abstract elements. Or we can think of it as a hypergraph—or, in simple cases, a graph. We might have a collection of relations like {{1, 2}, {2, 3}, {3, 4}, {2, 4}} that can be represented by a graph like 12 3 4 All weʼre specifying here are the relations between elements (like {2,3}). The order in which we state the relations doesnʼt matter (although the order within each relation does matter). And when we draw the graph, all that matters is whatʼs connected to what; the actual layout on the page is just a choice made for visual presentation. It also doesnʼt matter what the elements are called. Here Iʼve used numbers, but all that matters is that the elements are distinct.