Physics Asked on December 19, 2021
I know that as the phase of a substance changes the temperature of the substance remains constant. Now, I was wondering what would happen to the temperature of the container (assuming during the phase change of the substance contained in the container, the container itself doesn’t undergo phase change) when the substance contained in the container was undergoing phase change.
I searched the web for any clue but could not find anything regarding the temperature of the container.
Would the temperature of the container go up or remain constant if heat is being supplied at a constant rate to the system(system containing the container and the substance undergoing phase change).
I think the temperature of the container depends upon the conductivity of the substance undergoing phase change. If the conductivity of the substance undergoing phase change is more than the container then the temperature of the container would remain same and if the conductivity of the substance is less than that of the container then the temperature of the container rises.
I am not sure if my line of reasoning is correct, hence would like to have some conformation regarding the same and do support your statement by a sound reasoning.
For heat to be transported by conduction through the container there must be a temperature gradient, so if heat is coming into the container then the outside of the container must be at a higher temperature than the inside of the container.
Answered by Farcher on December 19, 2021
Elementary thermodynamics tells us that during phase change a system can absorb or release heat without changing its temperature. You have to give to (or take from) the system a certain quantity of energy to have it complete phase transition: this energy must come from (or go to) somewhere.
Think about a block of ice at temperature 0 Celsius, immersed in water. To melt this quantity of ice, water must give heat to the block until fusion is complete. In this heat exchange, water's temperature decreases.
That's the same case as yours, when you consider the water as the container. If you provide heat to the system, the situation can change wildly, but the basic rule is to use the first principle and think in terms of energy exchanges.
Answered by Salvatore Baldino on December 19, 2021
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