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Dear Colleague, this is a description of the formation of water from its beginning. It is presented in layman's terms for a number of reasons. Your comments or your description of water formation are welcome.
The Universe and the universal laws of physics, thermodynamics, gravity and matter have all been well established for more than 13 billion yrs. Only 5 billion yrs. ago, in our Milky Way Galaxy of 400 billion stars, a benign cloud containing 90% of Hydrogen, combined with clouds containing 10% of other Nobel gases. The gases were interlaced according to their atomic weights as they, merged and began to drift. The formed gases drifted into an enormous amount of intrinsic electrically charged fissile atoms of naturally occurring galactic elements, integrating with the gases and combining. As the cloud drifted through an absolute zero region of the galaxy, its incorporated gases froze into gigantic, towering mountains of a combination of galactic mixed gases and elements. Embedded in the frozen gas cloud were also some extremely hot, cloud consuming ions. A fusion process was set into motion when friction from the charged galactic ions, ignited and began to consume the flammable gas cloud. The ignited gases, fused a hot spot which, then rendered liquid molten from the galactic elements. The impurities from the solid elements in the hot spot, formed into a slag cauldron which then began to heat up and thaw our frozen young star 4.9 billion yrs. ago. The frozen gas mountains thawed and breached the ruptured surface of our new Sun, flowing toward and finally reaching the extremely hot cauldron, with a mixture of liquefied homogenous gases.
When the thawed, liquefied gases made contact with the molten elements, a cataclysmic molten "splash", gas atomic explosion resulted within the enclosed cauldron (Galvani's Law).
The combination of ionic energy from fission and galvanic/ gas steam pressure produced from fusion caused the firstinternal solar eruption from atomic energy. The tremendous heat and pressure from the first powerful internal explosion caused the thawed, extremely hot neutrons of the fissionable atoms to melt. In that extreme environment the atoms were stripped bare of their neutrons, to a state of unstable ionized and un-ionized electrons (-) and protons (+). A Fission process began from the extreme heat, which caused the bare nuclei to collide and produce enough energy to split and separate the atoms into their sub-atomic state of quarks, neutrinos and leptons (Pauli's Exclusion Principle). The tremendous internal atomic explosion with the force of an exploding star ejected the mountains of thawed unstable sub-atomic photosphere and gases upward with extreme pressure and force within a confined area of the cauldron. The tremendous pressure from the first internal atomic explosion, blasted the small lighter atoms of Hydrogen and other sub-atomic Noble gases into the larger, heavier Oxygen, Etc. atoms. The explosion pierced and impregnated the unstable Oxygen atoms, with the propelled Hydrogen atoms, combining and altering the sub-atomic Noble gases for the first time. This amalgamating and incorporating of sub-atomic ions under extreme heat and pressure began the natural process of the formation of water and other compounds. The process continued, when the impregnated Oxygen atoms were exploded into the absolute zero temperature of interstellar space under extreme atomic pressure from within the confined cauldron of the hot spot. When the encapsulated Hydrogen atoms were blasted into the absolute zero environment, they bonded forever with the Oxygen atoms and became one compound atom with a ratio of 2H:1O, for the first time ever. The extreme pressure and temperatures permanently bonded and compounded the atoms of H.,O.,C.,N.,and etc. into their present, compounded state of H2O (water) and other compounded atoms e.g. CO2, N2+O2,etc. The first eruption simultaneously forged the Kuiper Belt, extending it out 50 AU from the Sun. It also established The Oort (Hydrogen) Cloud which our Sun uses as its fuel source. The first eruption also and simultaneously defined the boundaries of our Heliosphere more than 4.8 billion yrs. ago. Thank you. Angelo Pettolino Author
What else can I help you with?
What is the reaction of ammonia with oxygen?
The reaction of ammonia (NH3) with oxygen (O2) typically results in the formation of nitrogen monoxide (NO) and water (H2O). This reaction is exothermic and can occur with the presence of a catalyst to accelerate the process.
Which type of gas does rusting require?
Rusting typically requires the presence of oxygen in the gas phase, as this initiates the oxidation reaction that leads to the formation of rust. Additionally, moisture or water is also needed for the process of rusting to occur, as it helps accelerate the oxidation of the metal.
Can water vapor rust iron?
Rusting will only occur in the presence of both water and oxygen. In the presence of oxygen, water vapour in the air will cause rusting to occur. So unless you are talking about the iron coming into contact with water vapour but when there is no oxygen, the answer is yes.
Why is nonpolar oxygen soluble in polar water?
Nonpolar oxygen is soluble in polar water due to the formation of hydrogen bonds between the oxygen molecules and water molecules. The polar nature of water allows it to interact with the nonpolar oxygen molecules, enabling them to dissolve and become distributed within the water.
What causes rusting to occur on metal surfaces?
Rusting on metal surfaces occurs when iron reacts with oxygen and water, forming iron oxide. This chemical reaction weakens the metal and causes it to corrode, resulting in the formation of rust.
What is the reaction of ammonia with oxygen?
The reaction of ammonia (NH3) with oxygen (O2) typically results in the formation of nitrogen monoxide (NO) and water (H2O). This reaction is exothermic and can occur with the presence of a catalyst to accelerate the process.
When did the formation of the ozone layer occur?
Ozone formation is a natural process. It is a chemical process. When oxygen is treated with UV radiations oxygen gets converted into ozone.
What is the role of moisture in formation of rust?
moisture contains water which is essential for rusting to occur. Rusting can't occur unless oxygen and water are available . 4Fe + 6(O2) + X(H2o) --->2( Fe2O3).X H2o X depends on the amount of water present .. hope this helps
What does iron have to be exposed to for oxidation to occur?
Iron has to be exposed to oxygen for oxidation to occur.
What does photosynthesis cause water molecules to divide into?
Oxygen gas, and the hydrogen and oxygen are part of the formation of sugar
Rusting is an example of what?
Rusting is the corrosion of iron. A redox reaction will occur and the iron will be oxidised by the oxygen and water surrounding it or any other strong oxidants.
How can you speed up the formation of rust?
By increasing the supply of water , oxygen ;and the presence of acids and electrolytes with water.
Which type of gas does rusting require?
Rusting typically requires the presence of oxygen in the gas phase, as this initiates the oxidation reaction that leads to the formation of rust. Additionally, moisture or water is also needed for the process of rusting to occur, as it helps accelerate the oxidation of the metal.
What happens when hydrogen and oxygen molecules form water?
A chemical reaction between oxygen and hydrogen occur.
Can water vapor rust iron?
Rusting will only occur in the presence of both water and oxygen. In the presence of oxygen, water vapour in the air will cause rusting to occur. So unless you are talking about the iron coming into contact with water vapour but when there is no oxygen, the answer is yes.
What is abrasion occur in three ways?
Wind oxygen or gravity water
Is formation of water from its element physical change?
No, the formation of water from its elements (hydrogen and oxygen) is a chemical change because new substances with different properties are formed. In this case, a chemical reaction occurs between hydrogen and oxygen molecules to produce water molecules.
