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For more on marking an answer as the "Best Answer", please visit our FAQ.Ice melts at 0 degrees Centigrade, under pressure conditions of 1 Atmosphere. Water freezes normally a fraction of a degree below this. The melting point of ice and the freezing point of water are not the same point.
Furthermore, if the water you are using is completely pure, in a completely clean beaker, you can supercool the liquid whereby the water will be liquid at a few degrees below zero. The ice crystals need somewhere to form. This only lasts a little while though, at which point the water molecules bump together and the whole lot freezes at once.
So, under normal conditions, water freezes at about -2 degrees C, and ice melts at 0 degrees C.
http://www.chemistrycoach.com/Phase_diagram.htm
Check out this phase diagram. The boundary lines represent the freezing/melting/vaporization points for a given pressure and temperature.
I don't see how that demonstrates what you're saying.
My point is that freezing is a more complex process than people imagine: it's the formation of ice crystals, and this can only occur under certain conditions. Pure water, or water that is fairly pure but in a very small quantity (like in the cells of an arctic animal), cannot freeze at 0oC, or even -1oC, because the ice crystals cannot form. When I spoke of 'normal conditions' above, I meant 'pure water". In fact, I think you'll find that normal run of the mill tap water, especially in a smooth-lined beaker, will not freeze above -1oC. If you want, I can dig out the docs. But very interested in what you have to say.
I would say that I'm very well qualified to speak about this because I live in Scotland and it's bloody freezing. All the time. But the water certainly isn't pure.
Water and ice can coexist at lots of temperatures, from less than -100oC to over 40oC, depending on the pressure. The liquid has to go through a process to become solid, ie crystalization.
If the water is completely pure, the freezing point will be well below zero, at normal atmospheric conditions.
And finally, the melting point and the freezing point will always be slightly different.