In this video, we explore the fundamental forces of nature and their interactions with particles, structured as follows: 0:00 - Intro & Fields 2:22 - Special offer 3:09 - Particles, charges, forces ...

Remember Tensordyne, who promised to slash AI GPU power consumption with a new way of doing things? That entire pitch was basically predicated on the power predicament that the industry finds itself ...

Break complex ideas into plain language, teach them back, fix the gaps—repeat. The Feynman Technique turns learning into active understanding (Image: Pexels) Learning is a lifelong journey—whether you ...

Illustration of a polaron The bright sphere is the electron, which is distorting the surrounding lattice. The wavy lines are high-order Feynman diagrams for the electron–phonon interaction. (Courtesy: ...

What was Richard Feynman's early life like? Richard Feynman was born in Queens, New York, on May 11, 1918. From a young age, he displayed an extraordinary curiosity and a keen aptitude for mathematics ...

Using an advanced Monte Carlo method, Caltech researchers found a way to tame the infinite complexity of Feynman diagrams and solve the long-standing polaron problem, unlocking deeper understanding of ...

Illustration of a polaron in a crystal: the central bright sphere is the charge carrier, distorting the surrounding lattice. The wavy lines represent high-order Feynman diagrams for the ...

During the keynote address at Nvidia's GTC, CEO Jensen Huang revealed the latest AI products and technologies, and shared insights into the product roadmap for 2026 to 2028. Huang announced that the ...

On Tuesday at Nvidia’s GTC 2025 conference in San Jose, California, CEO Jensen Huang revealed several new AI-accelerating GPUs the company plans to release over the coming months and years. He also ...

Richard Feynman, the Nobel Prize-winning physicist, was renowned not only for his contributions to science but also for his unique perspective on learning. One of his most famous insights was the ...

ABSTRACT: This paper presents a new theory of gravity, called here Ashtekar-Kodama (AK) gravity, which is based on the Ashtekar-Kodama formulation of loop quantum gravity (LQG), yields in the limit ...