\(f=280.73\,Hz\)
from the post "What If The Particles Are Photons?" dated 12 Dec 2017, considers a flat surface volume of,
\(vol_{time}=T^3\)
The frequency,
\(f=67.02\,Hz\)
from the post "I Don't Know..." dated 12 Dec 2017, considers a spherical surface volume of,
\(Vol_{time}=\cfrac{4}{3}\pi T^3\)
Both scenarios is along one space dimension.
The frequency,
\(f=280.73\,Hz\)
from the post "Freaking Out Entanglement" dated 14 Dec 2017, also considers a spherical surface volume of,
\(Vol_{time}=\cfrac{4}{3}\pi T^3\)
but is with all three space dimensions.
Does the LEDs acquire other colors, not designed for?
If \(f=280.73\,Hz\) is true, then
Why is volume in space spherical, but volume in time is cubic? Because the quantum in the time dimension is quantized in all three time dimensions in multiples of \(mc^2\)? Maybe.
