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Wet Cosmology

This is a story in theory of an event which many may reject and few may pause to wonder at its possibility. When moving forward into this reading, you do require a great imagination for the hidden secrets to what could be possible in our mysterious universe. Before the Expansion of space, before the big bang, everywhere and anything was an endless, infinitely insulated undisturbed volume of water. It was a place of endless 100% pure water kept at 70°. Darkness was upon the deep, a watery environment as the epochs passed.

Suddenly, an event out of creation took place with a force the size of 1054x10^28 megatons of TNT; like a hydrogen bomb detonated in the once undisturbed volume of water. However, with a keen eye, this event led to expansion from the shock-wave. What followed was the fiery gas plasma of hydrogen. And it still is going forward in the universe today. We are in the time delay where the shock-wave has not collapsed yet. 13.8 billion years has transpired.

The clock is ticking for the universe to most certainly have a violent death. When the shock-wave collapses, imploding in on itself, everything you know about will be gone.

Underwater explosions
 
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Astronomers May Have Found "Cracks In The Universe" After Looking Closer At Suspicious Galaxies​

crack-in-the-universe-l.webp

A team of astrophysicists says they may have found evidence for "cosmic strings", long-hypothesized "cracks" in the universe left over from early in its expansion.


One wonders if this would occur in water.
 
I did not expect to gain anything positive from this thread however it is interesting that many analogies can be found in the way that water behaves that help understand real phenomena. And theoretical stuff.
Your photo here reminds me of ideas I have had of an expanding hypersphere "shockwave of time" where our 3D space is the surface of an expanding bubble and is the universe. I like your spiral galaxies!

Whatever, the universe and space are not water. You are having a laugh to see if anyone wants to go fishing. Duh! you caught me :mad:
 
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This adds weight to theory I believe about water being here first before the big bang. I think water vapor exploded to the edge of the gas bubble explosions and when the universe cooled during expansion as it turned to ice on the edge of the galaxy.




Water Ice in the Edge-On Orion Silhouette Disk 114–426 from JWST NIRCam Images

By Keith Cowing
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astro-ph.EP
December 7, 2024
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Filed under astro-ph.EP, astrochemistry, astronomy, biochemistry, Biosignatures, chemistry, dust grains, Interstellar, JWST/NIRCam, organic chemistry, Orion Nebula, Protoplanetary Disk, protoplanetary disk 114–426, Water
Water-Ice-in-the-Edge-On-Orion.png
Left: Color composite image of 114–426 using the F115W and F140M (both blue), F162M (green), F182M (yellowgreen), and F277W (red) bands. Each of the four SW channel images (F115W, F140M, F162M, F182M) were interpolated onto a 3×3 pixel sub-grid (i.e. roughly 10 mas/pixel) to allow precise alignment, and the LW channel image (F277W) was resampled to match. Right: An image of 114–426 in the F187N band, again interpolated onto a 3 ×3 pixel sub-grid, showing the silhouette disk in maximum contrast against the Pa-α line. Each panel is 3.”5 × 3.”5 with north up and east left. The intensity of each image was scaled logarithmically to compress the dynamic range and enhance fainter details. — astro-ph.EP
We examine images of the protoplanetary disk 114–426 with JWST/NIRCam in 12 bands. This large disk is oriented edge-on with a dark midplane flanked by lobes of scattered light.
The outer edges of the midplane are seen in silhouette against the Orion Nebula, providing a unique opportunity to study planet-forming material in absorption. We discover a dip in the scattered light of the disk at 3 µm – compelling evidence for the presence of water ice.
The 3 µm dip is also seen in the silhouette of the disk, where we quantify the ice abundance with models of pure absorption and avoid the complications of disk scattering effects.
We find grain ice-to-refractory mass ratios of up to ∼0.2, maximum grain sizes of 0.25 to 5 µm, and a total dust plus ice mass of 0.46 M⊕ in the silhouette region. We also discover excess absorption in the NIRCam bands that include the Paschen α line, suggesting there may be excited atomic hydrogen in the disk.
Examining the morphology of the scattered light lobes reveals that they are laterally offset from each other and exhibit a brightness asymmetry that flips with wavelength – both evidence for a tilted inner disk in this system.


Also like in space during an underwater explosion a vacuum is created.

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Yes, an underwater explosion does create a partial vacuum in the immediate area around the blast, as the rapidly expanding gases from the explosion push the surrounding water outward, momentarily leaving a low-pressure zone at the center of the explosion; this low-pressure area is essentially a partial vacuum.

Key points about underwater explosions and vacuums:
  • Rapid expansion:
    When an explosive detonates underwater, the gases produced expand very quickly, creating a high-pressure shockwave that travels outward.

  • Low pressure zone:
    As the water is pushed away from the explosion center, it creates a temporary area of low pressure, which can be considered a partial vacuum.

  • Re-compression:
    Following the initial outward pressure wave, the water then rushes back in to fill the partial vacuum, creating a secondary pressure wave.
 

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