A water molecule has 10 protons, so it has an electric charge. A charged particle has a positive electric charge. So when you have the charges of a charged particle moving in the same direction as each other, you have a net electric charge of 0, or zero.
So that’s why it behaves as you describe at high pressures. We call low pressures and low temperatures “normal”; they occur when the charges of a charged particle are in phase and the total charge is negative.
It becomes the case of a charged particle with a net charge. We call it a neutral gas when all the charges are zero, so this gas of high pressures and low temperatures is a “neutral gas.”
So, this means it is neither negative nor positive. So it has no electric or magnetic field; the electric charge does not move in the opposite direction to itself. It has no mass; it doesn’t have any mass. It is completely isolated and doesn’t interact with other gases.
Also, it has no charge; it doesn’t have any electricity that can be carried out by some electrical current; it doesn’t have any electric charge to give it an electric field; and it doesn’t have any magnetic charge so that it can have an electric field.
So, when you have an electric charge and zero masses, it is a neutral gas. It can hold up its ground state of neutral gas without being a conductor of any kind. So, you can say that it is a vacuum; it has no potential difference.
But, in order for it to be a gas with a net charge, when you add one charge you add one electric and one magnetic charge. So you add two electric charges and one magnetic for what is called a total charge; which is one charge that is negative, and one charge that is positive, and it’s a combined charge, so that’s a combined charge.
So, if you keep adding charges, it keeps growing; it keeps expanding. This is why when we look at liquid water there are many positive-to-zero charges; it has a positive charge and a positive electrical charge, and we can add one electric charge to get one potential difference.
Now, when we add one magnetic charge we get one potential difference, so one magnetic charge and one electric charge, two charges and now three, so we go up to four, which is four charges plus one potential difference, so we’re in liquid water, so that’s liquid water.
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