The game of billiards is an ideal sport to be tested with physics and mathematics. In many universities, professors use this game to explain some concepts about physics. The theory of rebounds and ...
Adding one simple rule to an idealized game of billiards leads to a wealth of intriguing mathematical questions, as well as applications in the physics of living organisms. This week, researchers from ...
When atoms collide, their exact structure—for example, the number of electrons they have or even the quantum spin of their nuclei—has a lot to say about how they bounce off each other. This is ...
Adding one simple rule to an idealized game of billiards leads to a wealth of intriguing mathematical questions, as well as applications in the physics of living organisms. This week, researchers from ...
The quantum nature of interactions between elementary particles allows drawing non-trivial conclusions even from processes as simple as elastic scattering. The ATLAS experiment at the LHC accelerator ...
In a billiards parlor in Hoboken, New Jersey, Andy “Magic Man” Segal leans over the back table, angles his stick in the air, and stabs downward. The cue ball jumps in the air and lands on the felt, ...
Exploiting the hyperfine structure in repulsive light-assisted collisions (LAC) on a 87-Rubidium atom pair in an optical tweezer. When atoms collide, their exact structure—for example, the number of ...
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