I reckon not. That's what I was trying to ask with "Do the equations for vapor pressure still apply if there's no space for a vapor?" So that being said, how do you describe pressure in a heated liquid that has no room for expansion?
Well I don't know precisely, which is why I'm asking for help. Obviously pressure will increase, but what I don't know is if it's predicted by a whole different equation than the equation for vapor pressure. Does it change as a function of the amount headspace (0% headspace vs. 15% vs 58%, for...
Assume we have a vessel capable of withstanding infinite pressure. What happens to the pressure inside the vessel when that vessel is filled completely with water, with no air space at the top, and is then heated? Do the equations for vapor pressure still apply if there's no space for a vapor...