What happens when water is heated above its critical temperature?

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Heating water above its critical temperature of 374°C results in a state known as supercritical water, where there is no distinct phase separation between liquid and gas. In a hermetically sealed, strong container filled with water, the water will not become steam but will instead remain in a single fluid phase. As the temperature continues to rise, the water's density remains constant due to the fixed volume of the container. Eventually, if the temperature is increased sufficiently, the water molecules may decompose. This phenomenon highlights the unique properties of water under extreme conditions.
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Hi,

It is supposed a metal container hermetically closed and completely filled with water; the container is supposed to have unlimited strength, so doesn’t deform under internal or external pressure.

What will be happen if we heat the water over its critical temperature (374 C degrees – 705.2 F degrees)? Will it become steam? If yes, how? Because the container is fully filled with water and this is denser than steam (that is a gas).

If doesn’t become steam (gas), will continue the water increasing its temperature over the critical temperature as we increase the temperature we apply?

Thanks a lot.

PS – I apologize for my English, I am learning it.
 
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Well, according to my understanding, above the critical temperature, that is supercritical water and there will be no phase separation. Therefore, there will be only one 'fluid' phase in the region above the critical temperature. it's neither liquid nor gas, but it's still water!Since your container is fixed at constant volume, the density is also fixed. So the water (in fluid phase) will continue increasing its temperature as you increase the temperature outside, until the water molecules decompose.

That is my opinion. If anyone find errors in my words, please correct it. Thanks.
 
Thanks Isloneil for your interesting answer.
 

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