Cold Dark Nothingness areas in space as indication of the (NOT Expanding) but CONTRACTING CYCLIC universe by the the decrease of space time or BETTER, the oscillating Axion based Tetrahedral Space Frame, eaten by merging growing Back Holes, Leaving empty space time holes behind (Q-FFF Theory).
As a consequence, these empty spaces do not transfer any radiation by the absence of the tetrahedron 3D Space Frame Lattice suggested by the Q-FFF model.
Below some older posters on Q-FFF Theory.
The oscillating Axion 3D space frame Lattice can be eaten by black holes !
The new Black Hole is eating only photons and the vacuum but creating and repel all Fermions. (Q-FFF Theory)
According to Q-FFF Theory, the streamers are called high altitude Sprites or low altitude Ball Lightning Magnetic Photon interference black holes, eating the local vacuum lattice and paving the way for ultra fast electrons travelling through the newly formed empty vacuum channel, which seems empty of oscillating Axions vacuum system.
Youtube Texts; Jun 21, 2023
Youtube Texts; Jun 21, 2023
Get ready to be shocked as we reveal a bombshell that has stunned the space industry: the astounding finding that the universe's growth has abruptly stopped! And none other than the incredible James Webb Space Telescope is driving this discovery. Our view of the cosmos has been firmly grounded in the idea of an expanding universe for many years.
According to the dominant hypothesis, the Big Bang, the universe supposedly began as a singularity and has been expanding ever since. Redshift observations, which showed that galaxies were moving away from one another, and that space was expanding, provided evidence to support this notion. '
The James Webb Space Telescope, the most sophisticated and potent space observatory ever created, has recently made observations that have revealed a paradigm-shifting truth: the universe's unexpected slowing of expansion!
With much anticipation, the James Webb Space Telescope was launched, giving researchers an unmatched view into the darkest regions of the cosmos. This spectacular observatory, outfitted with state-of-the-art tools, has changed our capacity to study and probe the mysteries of space.
Our view of the cosmos has been firmly grounded in the idea of an expanding universe for many years. According to the dominant hypothesis, the Big Bang, the universe supposedly began as a singularity and has been expanding ever since. Redshift observations, which showed that galaxies were moving away from one another, and that space was expanding, provided evidence to support this notion.
The James Webb Space Telescope, the most sophisticated and potent space observatory ever created, has recently made observations that have revealed a paradigm-shifting truth: the universe's unexpected slowing of expansion!
With much anticipation, the James Webb Space Telescope was launched, giving researchers an unmatched view into the darkest regions of the cosmos. This spectacular observatory, outfitted with state-of-the-art tools, has changed our capacity to study and probe the mysteries of space.
The James Webb Space Telescope has methodically surveyed far-off galaxies, traced their motions and determined their redshifts using its complex array of sensors and cameras. The JWST's capacity to observe in the infrared is one of its major advantages. The telescope can see through the interstellar dust that frequently hides astronomical objects by focusing on infrared light, revealing hidden star formation zones and giving a view into the early universe.
The wavelengths of light moving across expanding space likewise grow, shifting the electromagnetic spectrum toward the red. This shift is directly proportional to the rate of motion of the object with respect to the observer.
Determining galaxies' distances and gauging the rate of the universe's expansion are two of redshift's most significant uses. The Hubble's law asserts that a galaxy's distance from us is directly proportionate to the speed at which it is moving away from us. The Hubble constant, an important cosmological parameter, provides a quantitative measurement of this relationship.
What factors or occurrences could have led to this sudden end to the expansion of the universe? Do we have a defective view of the cosmos or are there undiscovered variables at play? Theorists and scientists from all over the world are currently engaged in a race against time to understand this perplexing occurrence.