Red Shift Theory

Discussion in 'Pseudoscience Archive' started by jerrygg38, Nov 29, 2008.

  1. jerrygg38 Registered Member

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    THE RED SHIFT


    There are two possible explanations for the red shift. The most common theory is that the far stars are moving away from us near the speed of light. However this conflicts with Einstein’s laws of moving objects. The far stars would have to have near infinite kinetic energy to move near the speed of light.

    The second possibility is that the light from the far stars loses energy per unit distance of travel. This makes more sense according to the dot-wave theory because the dot-wave energy decreases with time.

    To make matters worse for the fast moving galaxy theory is the constraints placed upon our light speed C universe by the multi-lightspeed universe. Since space is a spectrum of multi-lightspeed energies, the only thing, which varies, are the dots and the dot-waves. Therefore expanding galaxies at the speed of light cannot fit into a multi-lightspeed universe.

    The cosmology dot-wave theory is an extension of the dot-wave theory. It specifies that the distance between the center of galaxies does not change. Thus the black holes at the center of our major galaxies were formed during the big bang and have remained basically stationary ever since. This does not say that every black hole is stationary. Some smaller black holes may rotate around other black holes. However all black holes will tend to be within a relatively small distance from the inner sphere of our universe which is at 15.9145 Billion light years from the common center. In order to understand the red shift; let us perform a simple experiment, which will help to explain the red shift.

    Take a small pebble and throw it in a quiet lake. This represents the big bang impulse function. Notice that when the rock hits the water, there is a high frequency high amplitude wave at the point of origin or big bang. Notice that as the wave stretches out that the amplitude of the wave and the frequency of the wave decreases. Upon the lake the wave will dissipate. A point is reached where the wave will not be visible. There is friction within the water and thus the wave energy is used up.

    This simple experiment shows us what is happening to the photonic waves from the far stars. As the light wave stretches out we find that energy is used up in the stretching of the energy field. Thus the photonic field acts very much like the water wave. By the time the light wave from the far stars reaches us, the energy of the wave is basically zero. All the energy has been used up and the wave will end in space at a distance Rg from each galaxy. As all the waves form a sphere as shown on the cover page, we get a perfect sphere at 31.8 billion light years from the common center of the universe.

    At the 31.8 billion light year distance we meet up with the light speed 2 inner sphere with light speed 2 galaxies. Thus our wave ends at the junction of the next higher light speed universe. Likewise our inner sphere at 15.9 light years from the center contains our galaxies and is the surface where the light speed C/2 universe ends.

    The dot-waves have expanded since the big bang. The photonic and gravitational fields have expanded as well. The galaxies have expanded however they have only expanded a small distance as compared to the photonic, gravitational, and electromagnetic fields.

    The photonic waves tend to have collisions with the dots-waves of space. The waves continually hit the large amounts of free space dot-waves, which exist with random motion. The collisions are similar to the general gas laws except they occur at light speed. This damages the photonic waves. Thus the resistance of space decreases the energy of the photonic waves.

    As the photonic wave flows outward over long distances, the collisions break up the wave. The wave loses energy per unit time or distance. Thus the universe tends to eat up the energy. The lost energy remains within space. Thus vast areas of space have huge amounts of dot-wave energy in them. However the dot-waves are uniformly distributed and cannot be seen or measured.

    The red shift can be defined as:

    f= fo [ 1 – (Rs/Rg )......................................(5-2)

    Equation 5-2 defines the redshift. It states that the frequency of the light wave from the emitting stars equals the original frequency fo (after big bang stability) times 1 minus the ratio of the distance from the far stars Rs divided by the radius of the galaxy Rg. At the far stars, the light is white like our stars. As the light wave moves toward us, it gets redder and redder.

    It is true that the far galaxies are expanding. This means that their ruler has increased over time. However our ruler has increased as well. Thus the expansion of the dot-waves over time tracks the expansion of the protons and electrons over time. Therefore the expansion is common mode and cannot readily be measured.

    The photonic waves coming from the far stars are independent photons photonic waves. Within our Galaxy we have dependent photonic waves. We are all traveling at the same galaxy speed. We are all part of our galaxy’s inertial system. All galaxies tend to be independent systems. Therefore we must look at the entire light wave from a galaxy as coming from a different inertial system.

    Our measurements of the light waves from far galaxies come from our inertial system. We read a light wave, which has been weakened as it stretched outward at the speed of light. Therefore the light wave that we measure is no different than the water wave we saw by throwing a pebble into a quiet lake.

    The photons from our sun are part of the same inertial system as our galaxy. We produce gravitational and photonic waves all over the universe. These waves will reach a maximum radius and die out completely.

    We produce describing functions to explain how our light works. This is all well and good for this galaxy. Light waves from a far galaxy flows across many other galaxies before reaching us. Thus independent photonic and gravitational fields interact with each other. Energy is transferred between these fields. The net result is the destruction of the fields into chaos over time.

    Another factor for the redshift is the slowing of the light as it passes stars. The high density of space dots surrounding stars cause the photons to slow due to increased permitivity and permeability constants. As the light nears a sun, the light speed drops. When this happens, the photon takes on the property of mass as per the following formula:

    Mg = Mo [ 1- (V/C)^2 ]^1/2 ...............................(5-3)

    Equation 5-3 is a describing function equation of the overall photon. The photon is composed of the bipolar dots. These dots have the capability of being mass dots or photonic dots. When the photon travels at light speed, the multi-dimensional bipolar dot stays in the photonic dimensions. Thus it is basically almost 99.9 percent photon. The bipolar dots photonic dots change into bipolar mass dots some of the time as soon as the photon speed drops.
    The net result is that the photon will oscillate between pure photon and partial mass. This will cause some bipolar dot-waves to split into electro-photonic waves and electro-dots. This prevents the photon from moving too far off course. In the process, the photon turns red.
    Therefore there are two main parts of the redshift. The collision with space dots acts like friction and wears out the photonic wave. This causes the wave to turn into stationary bipolar dots, stationary electro-dots, and electro-photon dot-waves.
    The final process involves the total destruction of the grav-photonic field into the electromagnetic field. As soon as the remains of the photonic wave reaches near the radius of the galaxy, the last mechanical energy turns into electrical energy. This self limits the galaxy field. This process protects and conserves the galaxy energy.
     

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