Physicists think they've resolved the proton size puzzle(arstechnica.com)
3 pointsby A_D_E_P_T3 hours ago1 comment
  • A_D_E_P_T3 hours ago
    That's 0.841x10^-15m.

    Now on to the more serious problem: The size of the electron. In physics it's considered a point with a diameter of zero. The experimental upper bound is 10^-22m; it must be smaller than this. Some have theorized that its actual diameter is far below the Planck Length, possibly even under 10^-90m. It's an open question as to whether the electron's diameter can ever be resolved experimentally, and the laws of physics strongly suggest that the answer is that it observation or measurement are impossible even in principle.

    ...Even the proton's new 0.841 femtometer diameter, smaller than previously assumed, is absolutely enormous in comparison.

    • floxy2 hours ago
      Schwarzschild radius for something with the mass of the electron seems like it would be ~1.35*10^-57m. But I guess that is for a neutral object. I suppose the electric charge might be enough to keep it from collapsing into a black hole? I wonder what the smallest Schwarzschild radius is for something with the charge of an electron?

      https://www.omnicalculator.com/physics/schwarzschild-radius

      https://en.wikipedia.org/wiki/Extremal_black_hole

      • foxyv2 hours ago
        That kind of makes me wonder if quantum mechanics is necessary for gravity to work properly. Like, without tunneling, photons wouldn't be able to escape the gravity of the particles that they originated from resulting in a dead theoretical universe.