Over the past decades, the mathematical formulation of physical theories has evolved to provide a unified framework that bridges classical mechanics, quantum mechanics and quantum information theory.

The course aims to give a brief and self-contained introduction to the mathematical methods of quantum mechanics. Although the materials are related to physics, they are presented in a more ...

Turbulence is one of the least understood phenomena of the physical world. Long considered too hard to understand and predict mathematically, turbulence is the reason the Navier-Stokes equations, ...

How can Einstein's theory of gravity be unified with quantum mechanics? It is a challenge that could give us deep insights into phenomena such as black holes and the birth of the universe. Now, a new ...

Microscale mechanisms and their relation to macroscopic behavior and mathematical constitutive modeling for advanced material systems. Emphasis on polymer viscoelasticity, shape memory materials, ...

MATH10012 ODEs, Curves and Dynamics (or MATH11007 Calculus 1 and PHYS10006 Core Physics 1) and MATH11005 Linear Algebra and Geometry To introduce variational principles in mechanics. To introduce ...

Scientific American is part of Springer Nature, which owns or has commercial relations with thousands of scientific publications (many of them can be found at www ...

Nature Research Intelligence Topics Topic summaries Mathematical Sciences Mathematical Physics Mathematical Aspects of Classical Mechanics, Quantum Mechanics and Quantum Information Theory Over the ...

Microscale mechanisms and their relation to macroscopic behavior and mathematical constitutive modeling for advanced material systems. Emphasis on polymer viscoelasticity, shape memory materials, ...