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Entropy is not change. Entropy is disorder.
The climate is not affected by entropy.
In context of thread, do you not mean the expansion ratio of vinegar mixed with sodium bicarbonate and the resultant volume of CO2? I would think that the expansion level of boiling vinegar would be in proportion to how much water is in a typical vinegar solution. Then you would extrapolate that from what we already know about the expansion ratio of water to steam.
In this case the entropy increase.
In this case the entropy increase.
Entropy is not change. Entropy is disorder.
The climate is not affected by entropy.
The entropy is lower.
Since "expansion" in this case refers to the increased spacing between molecules, then the density must decrease.
In context of thread, do you not mean the expansion ratio of vinegar mixed with sodium bicarbonate and the resultant volume of CO2? I would think that the expansion level of boiling vinegar would be in proportion to how much water is in a typical vinegar solution. Then you would extrapolate that from what we already know about the expansion ratio of water to steam.
You may need to rephrase the question. Thermal expansion is the amount a material expands or contracts under temperature change; expansion is instantaeous with temperature. When temperature is reached, so is expansion. It may take time to rach temperature, however.
The entropy increases
The entropy increases.
In this case the entropy increase.
In this case the entropy increase.
In this case the entropy increase.
In this case the entropy increase.