Scientists from Tokyo Metropolitan University have re-engineered the popular Lattice-Boltzmann Method (LBM) for simulating ...

Most of us first hear about the irrational number π (pi)—rounded off as 3.14, with an infinite number of decimal digits—in ...

In this video, we’ll walk you through the process of calculating the coefficient of friction for a leaning ladder! 🪜🔧 Using basic physics principles, we’ll analyze the forces at play and show you ...

Three thought experiments involving “demons” have haunted physics for centuries. What should we make of them today?

IISc researchers connect Ramanujan’s century-old pi formulae with modern physics, uncovering surprising mathematical ...

In this video, we explain the Work-Energy Principle and how to determine the work done on an object. Learn how force, displacement, and the angle between them come into play when calculating work, and ...

If you're going to Mars you'd best take along a jar of anti-aging cream because while you're there you're going to age faster ...

Tracking the first astronauts’ visit to Mars won’t be as simple as watching a clock or marking days off of a calendar. Thanks ...

Picture a budget meeting at a government agency or a boardroom in a multinational firm. A generative AI system has drafted a ...

It’s possible to defy gravity using sound waves, magnets or electricity, but today’s methods can’t hoist heavy items high in ...

Ramanujan's pi-computing machinery exactly mirrors the necessary structure in modern physical theories (LCFTs).

IISc researchers reveal connections between Ramanujan's pi formulae and modern high-energy physics, enhancing calculations in turbulence and black hole theories.