rockandroll Posted November 30, 2012 Share Posted November 30, 2012 (edited) Hello, I have an interesting question about water natural convection without an external heat source. Say we have a high tower filled with water. The tower walls don't allow any heat to escape or enter the system. There is a constant gravitational force present in a system (g-force). At the beginning the water is all at the same temperature. The water naturally contains faster and hotter atoms and slower and cooler atoms. Because of the buoyancy forces the hotter atoms will have a tendency to rise and cooler atoms will have a tendency to sink. Is it correct to say that after some time the water at the top of a tower will become hotter than the water at the bottom of a tower? Or the heat transfer will cancel out this effect? Edited November 30, 2012 by rockandroll Link to comment Share on other sites More sharing options...
mathematic Posted November 30, 2012 Share Posted November 30, 2012 Because of the buoyancy forces the hotter atoms will have a tendency to rise and cooler atoms will have a tendency to sink. Are you sure? Any references? Link to comment Share on other sites More sharing options...
derek w Posted December 1, 2012 Share Posted December 1, 2012 rockandroll:- you say that in the beginning the water is all at the same temperature. Therefore you can say that on average all the molecules of water have equal momentum. Link to comment Share on other sites More sharing options...
rockandroll Posted December 1, 2012 Author Share Posted December 1, 2012 Are you sure? Any references? Well, maybe not individual atoms. But, since atoms move through the liquid relatively freely, small regions of hot and cold water will randomly appear in the water. Hotter regions will rise and cooler regions will sink. This doesn’t change the question . rockandroll:- you say that in the beginning the water is all at the same temperature. Therefore you can say that on average all the molecules of water have equal momentum. Yes, but there will always be faster and slower atoms. It’s a rule of nature. http://www.algebralab.org/practice/practice.aspx?file=Reading_DistributionOfKineticEnergies.xml Link to comment Share on other sites More sharing options...
Enthalpy Posted December 1, 2012 Share Posted December 1, 2012 This will not happen. One reason is that molecules change their speed all the time. At every shock, which happen in a liquid in less than one molecule length. Link to comment Share on other sites More sharing options...
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