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About h: Difference between revisions

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*Also, this may allow us to connect ''h'' with the "radius" of the universe (which is its age along the time dimension), and c, which is the rate of propagation of time (see [[Speed of Light and the "Rate of Propagation of Time"]]).
*Also, this may allow us to connect ''h'' with the "radius" of the universe (which is its age along the time dimension), and c, which is the rate of propagation of time (see [[Speed of Light and the "Rate of Propagation of Time"]]).


*Additionally ''h'' appears to function as a minimal energy increment for EM waves, and this may mean that it has something to do with the infinitesimal "step" that is needed so that a line is transformed into a curve. I will try to describe things verbally, but there will be a simulation presenting this. Let's say that we have a Stationary Body situated at x = 0 and T = t. The very next "points" of the spaceline on its right and left will be "lower" by an infinitesimal amount along the time dimension (their proper time will at an infinitesimally previous time moment). This is what gives the space dimension its circular shape, and what creates this infinitesimal "step" that makes the space dimension to be made up of discrete "pieces" or length intervals situated at a more and more early time moments. So this quantization gives both the discreteness of the space dimension and its circular shape (which may result in ''h'' having dimensions of angular momentum).
*Additionally ''h'' appears to function as a minimal energy increment for EM waves, and this may mean that it has something to do with the infinitesimal "step" that is needed so that a line is transformed into a curve. I will try to describe things verbally, but there will be a simulation presenting this. Let's say that we have a Stationary Body situated at x = 0 and T = t. The very next "points" of the spaceline on its right and left will be "lower" by an infinitesimal amount along the time dimension (their proper time will be at an infinitesimally previous time moment). This is what gives the space dimension its circular shape, and what creates this infinitesimal "step" that makes the space dimension to be made up of discrete "pieces" or length intervals situated at a more and more early time moments. So this quantization gives both the discreteness of the space dimension and its circular shape (which may result in ''h'' having dimensions of angular momentum).


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Revision as of 22:09, 27 May 2007

  • Additionally h appears to function as a minimal energy increment for EM waves, and this may mean that it has something to do with the infinitesimal "step" that is needed so that a line is transformed into a curve. I will try to describe things verbally, but there will be a simulation presenting this. Let's say that we have a Stationary Body situated at x = 0 and T = t. The very next "points" of the spaceline on its right and left will be "lower" by an infinitesimal amount along the time dimension (their proper time will be at an infinitesimally previous time moment). This is what gives the space dimension its circular shape, and what creates this infinitesimal "step" that makes the space dimension to be made up of discrete "pieces" or length intervals situated at a more and more early time moments. So this quantization gives both the discreteness of the space dimension and its circular shape (which may result in h having dimensions of angular momentum).



See also