wellwisher
Well-Known Member
Water is composed of oxygen and hydrogen atoms. Each water molecule can form four hydrogen bonds, 2 acceptors and 2 donors. In a loose sense, water by forming four hydrogen bonds is similar to carbon which can form four covalent bonds. In the case of carbon, these four bonds allow for endless varieties of organic molecules. This natural complexity is the main source of covalent entropy increase in life; organic complexity based on carbon.
Water sort of does something similar to carbon; four bonds, but at the level of the hydrogen bonding matrix; secondary bonding, with each hydrogen bond, acting like a little binary switch, that can adjust between two settings; polar and covalent, without breaking the hydrogen bond. The net effect is similar to computer memory with bits and bytes. Individual hydrogen bond switches and groups of hydrogen bonding switches can be used to reflect organic states, like an alphabet. This is the fluid parallel to the semi-solid organic variety, with water the main source of entropy, increase via hydrogen bonding, while carbon is the main path for organic entropy increase. With each going in the opposite direction, both push and pull occur around the same time; liquid state.
Surface tension; between water and oil; organics, will shift the hydrogen bonding surface sites of the water, to the covalent state, with the covalent state more expanded; surface tension. The polar state of the hydrogen bonding binary switch is the opposite and is more compressed. The polar defines higher entropy and the 2nd law will cause the water to want to lower surface tension, back toward more polar switches. But this lowers organic entropy; folds protein, adding organic entropic potential to protein for change; catalysis and molecular evolution, in the organic matrix.
The binary switch of the hydrogen bonding of water by shifting between polar and covalent, has a unique effect in nature, which causes the electromagnetic force; unified force, to split into its separated electrostatic and magnetic components. Polar bonds are about lowering charge potential; electrostatic, while covalent bonding involves sharing opposite spin electrons that magnetically add in the bonding orbitals to form enhanced stability. With the electromagnetic force the sum of both the magnetic and electrostatic forces; energy conservation, we get a more complex matrix of binary signals, with each setting having a different form of EM muscle.
If we go back to perfect ice crystal the added entropy of the hydrogen bonds in water is due to the splitting of the electromagnetic force into its two components, which adds additionally entropy; complexity even at absolute zero.
Below are the energy profiles for the binary hydrogen bond switch. The normal hydrogen bonds show the binary wells with the lower energy the covalent state. This is shown as O-H. The polar is at the higher energy state, with a slight energy barrier between each state so they can remain distinct. This binary situation is even more elaborate, with lower barrier and single well states to fine turn the organic reflections within the hydrogen bonding matrix. The single well is where the EM force is united and blurred. The low-barrier is where the electrostatic and magnetic are distinct, but of similar values. Both are higher energy versions of hydrogen bond switches.
Water sort of does something similar to carbon; four bonds, but at the level of the hydrogen bonding matrix; secondary bonding, with each hydrogen bond, acting like a little binary switch, that can adjust between two settings; polar and covalent, without breaking the hydrogen bond. The net effect is similar to computer memory with bits and bytes. Individual hydrogen bond switches and groups of hydrogen bonding switches can be used to reflect organic states, like an alphabet. This is the fluid parallel to the semi-solid organic variety, with water the main source of entropy, increase via hydrogen bonding, while carbon is the main path for organic entropy increase. With each going in the opposite direction, both push and pull occur around the same time; liquid state.
Surface tension; between water and oil; organics, will shift the hydrogen bonding surface sites of the water, to the covalent state, with the covalent state more expanded; surface tension. The polar state of the hydrogen bonding binary switch is the opposite and is more compressed. The polar defines higher entropy and the 2nd law will cause the water to want to lower surface tension, back toward more polar switches. But this lowers organic entropy; folds protein, adding organic entropic potential to protein for change; catalysis and molecular evolution, in the organic matrix.
The binary switch of the hydrogen bonding of water by shifting between polar and covalent, has a unique effect in nature, which causes the electromagnetic force; unified force, to split into its separated electrostatic and magnetic components. Polar bonds are about lowering charge potential; electrostatic, while covalent bonding involves sharing opposite spin electrons that magnetically add in the bonding orbitals to form enhanced stability. With the electromagnetic force the sum of both the magnetic and electrostatic forces; energy conservation, we get a more complex matrix of binary signals, with each setting having a different form of EM muscle.
If we go back to perfect ice crystal the added entropy of the hydrogen bonds in water is due to the splitting of the electromagnetic force into its two components, which adds additionally entropy; complexity even at absolute zero.
Below are the energy profiles for the binary hydrogen bond switch. The normal hydrogen bonds show the binary wells with the lower energy the covalent state. This is shown as O-H. The polar is at the higher energy state, with a slight energy barrier between each state so they can remain distinct. This binary situation is even more elaborate, with lower barrier and single well states to fine turn the organic reflections within the hydrogen bonding matrix. The single well is where the EM force is united and blurred. The low-barrier is where the electrostatic and magnetic are distinct, but of similar values. Both are higher energy versions of hydrogen bond switches.