the solution with higher pressure would have more gas in it that the one with low pressure.
A solution under a high pressure
A solution under high pressure will have more gas dissolved in it than one under low pressure.
A solution under high pressure will have more gas dissolved into it.
Simple diffusion process, i.e. from high pressure to low pressure
high
A solution under a high pressure
A solution under a high pressure
A solution under high pressure will have more gas dissolved in it than one under low pressure.
A solution under a high pressure
A solution under high pressure will have more gas dissolved into it.
Increasing the pressure the solubility is also increasing.
A sol'n under HIGH pressure has more gas in it. The high pressure is working against the much smaller vapor pressure of the liquid. If they equal then the liquid is at it's boiling point. Additionally applying pressure to a solution keeps dissolved gasses inside the solution such as Oxygen or Carbon Dioxide (Think of a Cola can. It is stored under pressure and the fizz stays in the liquid. Then you open the can and release the high pressure and the carbon dioxide starts to bubble out of the solution. It was not doing this before you opened the can and lowered the overall pressure)
A solution is a solute dissolved in a solvent. A concentrated solution is all the solute that be dissolved in a solvent at normal temperature. A super-concentrated solution is all the solute that can be dissolved in a solution after mixing in the solute during high temperature / pressure. The concentration after cooling to normal temperature / pressure is greater than a regular concentrated solution.
The solubility of gases in liquids increase when pressure increase.
Simple diffusion process, i.e. from high pressure to low pressure
high
No. It is a supersaturated solution of carbon dioxide in whatever it is you're drinking. The CO2 stays in solution because at the top of the container, there is CO2 at high pressure. When you open the container, the pressure in it drops to atmospheric pressure and the dissolved CO2 bubbles its way out of solution...which is what you want it to do.