Recent content by ABC83

Thank you everyone for the quick and useful responses. :)

Thank you. :) I thought the same, so the final result would be 0.0231 atm absolute on the low pressure zone, that is located between the water layer and the top of the container, I think. At the bottom of the 1.0m tall container, should be approx. 0.1 atm higher, because of the static pressure.

Thank you. This is what I am interested in, but at 20°C. In particular the pressure in the container. Probably easier if we consider it at the top, so we can disregard the effect of the static pressure of the water.

It is a very good question and something I have not fully thought about. If we know the amount of gas dissolved, we could make an estimate on the resulting pressure with the gas equations, assuming that the gas volume will eventually fill the space. However... for the type of system I need to...

Yes, the container is sealed and rigid, so it doesn't changes shape or volume.

Yes, that's my question. We have a liquid that reduces in volume because of the reduction in temperature, in a container that doesn't gets smaller. So what happens and can we estimate the new pressure, presumably a lower pressure in the container that what we started with?

Thank you, my query is kind of theoretical, as I don't want to go in the details of the container flexibility, etc... :) Please note that in my query the water cools down reducing its volume. My thought is that the pressure at the top of the container (so not including static head) as the water...

Hello, I have a sealed and rigid container, (can't change volume, can allow heat through), 1.0m x 1.0m x 1.0m in size, that is completely full with warm water, let's say at 40°C. The initial pressure in the container is 1atm and the volume of the water at 40°C perfectly matches the volume of the...