air (gas) moving at great speeds can create pressure so large it can demolish buildings.
sorry i dont know about liquids yet
Pressure variation in liquids can be observed when squeezing a water bottle, which increases the pressure inside. In gases, pressure variation can be seen in weather systems where high pressure brings clear skies and low pressure brings storms, also in inflating a balloon causes an increase in pressure inside.
One example of variation in pressure in liquids is seen when you drink from a straw, where lower pressure is created in your mouth, causing the liquid to be pushed up the straw. In gases, variation in pressure can be observed in weather patterns, where changes in pressure contribute to the formation of high and low pressure systems, influencing wind patterns and weather conditions.
The solubility of solids and liquids show virtually no changes with pressure. However, solubility increases with pressure in the solubility of gases in liquids.
Gas.Henri's Law states:A gas law that states that the mass of a gas dissolved by a given volume of liquid at a constant temperature is directly proportional to its pressure.
The particles are not fixed.The liquid will change to the shape of the container it is held in.There is some attraction between particles.The particles have more kinetic energy than in a solid state.The particles have less kinetic energy than in a gaseous state.When cooled liquids may solidify to a solid.When heated liquids may evaporate to gases.1L of pure H2O at 4 degrees celcius at normal pressure has a mass of 1kg
They can be depending on the temperature and pressure. They can also be liquids and solids. At room temperature and pressure they are gases.
Boyle's law applies to ideal gases, not liquids. In liquids, pressure and volume are not directly proportional as they are in gases. Liquids are generally considered to be incompressible, so changes in pressure do not significantly affect their volume.
Increasing pressure typically increases the solubility of gases in liquids because the gas molecules are forced into the liquid by the higher pressure. This is described by Henry's Law, which states that the solubility of a gas is directly proportional to the partial pressure of that gas above the liquid. Conversely, decreasing pressure tends to decrease the solubility of gases in liquids as the gas molecules can escape from the liquid more easily.
Pressure in gases is very similar to pressure in liquids. The pressure of a gas is always higher in the direction a force is acting e.g. gravity.
At higher pressure the dissolution of gases in liquids is increased.
gravity
Pressure variation in liquids can be observed when squeezing a water bottle, which increases the pressure inside. In gases, pressure variation can be seen in weather systems where high pressure brings clear skies and low pressure brings storms, also in inflating a balloon causes an increase in pressure inside.
Gases and liquids are both considered fluids because they can flow and take the shape of their container. They can exert pressure on the walls of their container and have molecules that move freely past each other. However, liquids have higher density and are less compressible compared to gases.
When pressure is applied to liquids and gases, their volumes generally decrease. Gases are more compressible than liquids, so an increase in pressure leads to a significant reduction in gas volume, following Boyle's Law. In contrast, liquids are only slightly compressible, resulting in a minimal change in volume under increased pressure. Overall, the relationship between pressure and volume is inversely proportional for gases, while liquids experience negligible volume changes.
The force that causes the bulk flow of fluids in a system is typically pressure difference. This pressure difference drives the movement of fluids, such as gases and liquids, from areas of high pressure to areas of low pressure.
Cooling and/or pressure changes gases to liquids.
Gases that can dissolve in liquids include oxygen, carbon dioxide, nitrogen, and ammonia. The solubility of a gas in a liquid depends on factors such as temperature, pressure, and the chemical properties of the gas and liquid.