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02-22-2007, 03:24 PM
Frequency is a fundamental property of waves. Its complement is the wavelength. Furthermore, the product of these complements is a constant equals to the measured speed of visible light. If absolute wavelength exists then absolute frequency also exists, vice versa.
Although relative frequency is time dependent absolute frequency is not. Likewise relative frequency is space dependent while absolute frequency is not. Therefore, all things considered, absolute frequency is spacetime independent. It exists even if spacetime does not.
A different perspective could suggest that existence of absolute frequency creates spacetime. It can be demonstrated that two distinct configurations exist for absolute frequency. These could be described easily by real Hadamard matrices. Their topological links represent squares of energy as quantized structures of spacetime.
The usual non-topological definition of frequency is the number of oscillations of a wave per a second of time. An alternative definition in term of spacetime interval t is the oscillations per unit t, yº f ºnºq/t. qis expressed in angular radian scale and the value of 2p radians represents 1 oscillation. For integral values of qis 2np, for n = 0, 1, 2, 3, 4, … For half integral values q= np/2, where n can only take on odd numbers, n = 1, 3, 5, 7, 9, …If now the spacetime interval is normalized (set equal to unity) then absolute frequencies are described by integral values of q. These could be used to describe superpositions of waves that are either completely in phase or completely out of phase.
Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
Last edited by dleviwing : 03-18-2007 at 09:29 PM.
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02-22-2007, 06:54 PM
Linear Mode
