In this video, we derive the electric field between two charged plates using fundamental principles of electrostatics. Step-by-step reasoning, clear equations, and physical intuition are used to show ...

In this video, we derive the electric field of a long uniformly charged rod using Gauss’s law. We choose an appropriate Gaussian surface, apply symmetry arguments, and walk through the math ...

The accelerating expansion of the universe is usually explained by an invisible force known as dark energy. But a new study ...

Machine learning is revolutionizing fundamental science by tackling long-standing mathematical challenges. A key example is ...

Scientists propose a new gravity theory using Friedmann equations. Their model explains the universe’s accelerating expansion ...

Tessellations aren’t just eye-catching patterns—they can be used to crack complex mathematical problems. By repeatedly ...

Why the universe is expanding faster and faster remains one of the biggest open questions in physics. Current theories cannot ...

Floquet control uses time-periodic drives to engineer quantum systems, creating dynamic changes in material properties ...

A new study by mathematicians at Freie Universität Berlin shows that planar tiling, also known as tessellation, is far more than a decorative ...

Stevens Institute, Hoboken, reports the universal identity P²+K²=1, uniting polarization with entanglement across setups and ...

Control engineering plays a pivotal role in understanding and designing systems ranging from biological feedback loops to ...

Nash, L. (2026) On the Size of the Electron in a Quantum Universe. Journal of High Energy Physics, Gravitation and Cosmology, ...