STEM Education Shopping

JULY 19, 2023

By physically manipulating these blocks, you can practice counting, addition, and subtraction. By placing them side by side, you can physically see that when you combine 2 and 3, you get 5. By physically removing the blocks, you can see how the quantity decreases, reinforcing the concept of subtraction.

Math 52

Math Algebra Data analysis Problem Solving 52

STEM Education Shopping

JULY 19, 2023

By physically manipulating the cubes, children can develop a better understanding of numbers and their relationships. For kinesthetic learners, manipulating the cubes provides a physical and interactive way to learn. These cubes come in various colors and sizes, making them visually appealing and engaging for children.

Math 52

Math Algebra Mathematics Problem Solving 52

Stephen Wolfram

SEPTEMBER 9, 2021

One might have thought it was already exciting enough for our Physics Project to be showing a path to a fundamental theory of physics and a fundamental description of how our physical universe works. Despite this, however, fundamental physics always seemed to resist its advance. The Path to a New Paradigm.

Physics 65

Physics Science Sciences Mathematics 65

STEM Education Guide

MARCH 8, 2023

While the science aspect (chemistry, biology, and physics) and mathematics (calculus and algebra) is a breeze to figure out, the engineering and technology aspects are less straightforward. Coding can be effective when coupled with physical computing or on a computer. Robotics It encompasses the design and building of robots.

Computer Science 52

Computer Science Computer Science Sciences 52

STEM Sport

MAY 17, 2022

For a long-term project, students can choose a historical monument, research it, create architectural plans for their building and then construct it using a variety of materials. This is useful whether it is basic addition and subtraction, or more complex topics such as geometry and algebra.

Problem Solving 52

Problem Solving Architecture STEM Geography 52

Stephen Wolfram

MARCH 5, 2024

A key idea—ultimately supported at a foundational level by our Physics Project —is that we can think of everything that happens as a computational process. In 2000 I was interested in what the simplest possible axiom system for logic (Boolean algebra) might be. Perhaps even the architecture of the network can change.

Science 115

Science Sciences Computer Mathematics 115

Stephen Wolfram

NOVEMBER 10, 2021

It’s yet another surprising construct that’s arisen from our Physics Project. In the language of our Physics Project, it’s the ultimate limit of all rulial multiway systems. And here is a rulial multiway system made from hypergraph rewriting of the kind used in our Physics Project , using all rules with signature : &#10005.

Physics 116

Physics Mathematics Computer Construction 116