Nig, its because the pressure is what makes the gas, if there ain't no pressure, ain't no gas.
Atmospheric gases can be liquefied by (i) increasing atmospheric pressure ; and (ii) decreasing temperature. By increasing pressure particles of the gas get compressed. Decreasing temperature reduces kinetic energy.
No. It takes a combination of pressure and temperature to liquefy some gases. Hydrogen and helium were the last gases to be liquefied and that was with pressure and extremely low temperature.
Increasing the pressure, the solubility of gases in liquids is increased.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
The physical state of matter can also be changed by changing the pressure. In other words, the physical state of matter can also be changed by increasing pressure or decreasing pressure. For example, gases can be changed into liquids by increasing the pressure (accompanied by lowering of temperature). There is a lot of space between the particles of a gas. We can reduce the spaces between the particles by enclosing it in a cylinder and compressing it by pushing in the piston.
Atmospheric gases can be liquefied by (i) increasing atmospheric pressure ; and (ii) decreasing temperature. By increasing pressure particles of the gas get compressed. Decreasing temperature reduces kinetic energy.
When gases are operated under very high pressure and extremely low temperatures, they get liquefied.
No. It takes a combination of pressure and temperature to liquefy some gases. Hydrogen and helium were the last gases to be liquefied and that was with pressure and extremely low temperature.
Increasing the pressure, the solubility of gases in liquids is increased.
The concentration of reactants is changed.
Robert B Jacobs has written: 'Single-phase transfer of liquefied gases' -- subject(s): Liquefied gases, Transportation
Usually by compression and then cooling the resulting concentrate.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
Light hydrocarbons (methane, ethane, propane, butane, etc.) are generally gases at normal temperatures and pressures. With the exception of methane they can be easily turned into liquids when cooled or stored under pressure. All these gases are present in natural gas or the gas fraction of petroleum oils. They are also created during the fractionation, cracking and reforming processes at refineries. Once liquefied ethane, propane and butane are called. LPGs (Liquefied Petroleum Gases) Methane is not generally considered an LPG although it can be liquefied at high pressures and low temperatures. All the gases come from the same source
They are liquefied gases.
For any real gases, increasing the pressure lessens the volume and vice-versa.
LPG is the abbreviation for Liquefied Petroleum Gas.The property used is its inflammability for use in internal combustion engines