Conquer complex mechanics with **“Master This Physics Problem: Final Speed And Angle After Collision.”** In this video, we break down a challenging physics problem step by step, showing you how to ...

Right now, molecules in the air are moving around you in chaotic and unpredictable ways. To make sense of such systems, ...

Watch a physics problem solved: Atwood machine with a heavy pulley! Step-by-step explanation of forces, acceleration, and tension—perfect for students and physics enthusiasts. #Physics #AtwoodMachine ...

From dazzling eclipses to rare planetary meet‑ups, the night sky is full of events worth looking up for. Hunt for the various ...

Watching, modeling and even playing winter sports help students internalize physics concepts, including acceleration, ...

When starting this ice challenge, most people just step on the side of the bowl and slide down to the bottom. Then you’re ...

Abstract: One of the primary objectives of 2-D inverse scattering problems (ISPs) is to accurately characterize the nature of an unknown tomographic domain based on the collected scattered field data.

These student-constructed problems foster collaboration, communication, and a sense of ownership over learning.

A century ago, Erwin Schrödinger came up with an equation that says how the quantum world behaves. Now scientists are asking ...

These icy bodies orbit the sun just like the major planets, yet they follow their own rules, often traveling along elongated ...

This repository allows you to solve forward and inverse problems related to partial differential equations (PDEs) using finite basis physics-informed neural networks (FBPINNs). To improve the ...

Abstract: Physics-informed neural networks (PINNs) have recently been utilized to tackle wave equation-based forward and inverse problems. However, they encounter challenges in accurately predicting ...