becausse the particles in gas are far apart.
There are more particles of gas.
Gas particles that are not contained will always move from an area of high pressure to an area of low pressure. This movement occurs in an effort to equalize the pressure between the two areas.
When air particles are further apart, you have low air density. This can result in lower air pressure.
If gas particles remain, they will get ionized and conduct electricity between elements resulting in a purple glow.
Gas particles under pressure flow through a tiny opening due to a combination of diffusion and effusion. Diffusion refers to the movement of gas particles from an area of high concentration to low concentration, while effusion specifically describes the movement of gas particles through a small opening. This process occurs until equilibrium is reached.
Objects that are in high pressure always want to go into low pressure. It wants to do this because the particles in high pressure are crowded and the particles in low pressure have space and can move around.
High temperature and low pressure. High temperature because this speeds up the rate of the molecules so there is less intermolecular forces of attraction between particles. Low pressure because the greater the distance of the particles and the less molecular forces of attraction between particles.
High pressure is stronger. Pressure is caused by the gas particles in a container hitting the sides of said container. At high pressure, the particles hit the sides of the container much more and therefore are pushing harder on the sides.
Particles will move from an area of low pressure to high pressure. This movement occurs to equalize the pressure between the two areas. It is a natural process that helps to balance the pressure gradient.
At low temperature and high pressure, the VOLUME of the gas will be reduced.
At low temperatures, the assumption that gas particles move randomly and independently breaks down. This is because at very low temperatures, the particles are not moving fast enough to overcome intermolecular forces and tend to stick together. Additionally, at extremely low temperatures, particles can display quantum mechanical behaviors that are not accounted for in the classical kinetic theory of gases.
High pressure, and low temperature.High pressure, and low temperature.High pressure, and low temperature.High pressure, and low temperature.