In the relativity theory there is a called invariant value between two frames S^2:
S^2 = c^2t^2 – x^2
But as x and t are considered to be independent coordinates space and time, the value of S^2 varies between each pair of frames ( c is the light speed ).
x = 4 ; t = 2 : S^2 = 3.6E+17
x = 6 ; t = 9 : S^2 = 7.3E+18
As it always exists a relative speed between each pair of frames, the value of S^2 is a universal constant:
c^2tn^2 – xn^2 = k (universal constant)
k = 4E-34m^2
As so, we can give independent values to the variables x and t. If we give a value to one we can immediately calculate the other. So, x and t are not space and time but wavelength and period of an electromagnetic wave.
x = ( c^2t^2 – k )^0.5
Thus, we prove that the space-time doesn’t exist. A direct consequence is that the vacuum light speed is variable with the frequency:
António Saraiva – 2008-06-17
ajps2@hotmail.com
In the relativity theory there is a called invariant value between two frames S^2:
S^2 = c^2t^2 – x^2
But as x and t are considered to be independent coordinates space and time, the value of S^2 varies between each pair of frames ( c is the light speed ).
x = 4 ; t = 2 : S^2 = 3.6E+17
x = 6 ; t = 9 : S^2 = 7.3E+18
As it always exists a relative speed between each pair of frames, the value of S^2 is a universal constant:
c^2tn^2 – xn^2 = k (universal constant)
k = 4E-34m^2
As so, we can give independent values to the variables x and t. If we give a value to one we can immediately calculate the other. So, x and t are not space and time but wavelength and period of an electromagnetic wave.
x = ( c^2t^2 – k )^0.5
Thus, we prove that the space-time doesn’t exist. A direct consequence is that the vacuum light speed is variable with the frequency:
w = ( c^2 – kf^2 )^0.5