Dive into fluid dynamics with **“Quadratic Drag In Vertical Motion | Classical Mechanics Explained.”** In this video, we explore how quadratic air resistance affects objects moving vertically, ...

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, physicists use a law known as the Boltzmann distribution, which, rather than ...

It’s said that life can imitate art. This usual means something happens in the real world that plays out like a novel or a ...

A pair of US researchers have developed a new model to tackle a deceptively simple problem: how a small block of ice melts while floating in calm water. Using an advanced experimental setup, Daisuke ...

This puzzle is known as the problem of time, and it remains one of the most persistent obstacles to a unified theory of ...

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

DeepMind’s Genie 3 acts like a world simulator, with persistent behavior and consistent motion, letting you explore and edit simulations on ...

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.

An associate professor in the Department of Physics, Lomsadze uses powerful laser-based tools to capture ultrafast events in quantum materials, work that could shape the future of technology.