The more the collisons the higher the pressure, the lesser amount of collisons the lower the pressure.
In a perfectly elastic collision of gas particles, no kinetic energy is lost during the collision. This means that the total kinetic energy of the particles before the collision is equal to the total kinetic energy after the collision. As a result, the momentum and speed of the particles are conserved.
Pressure... hope I helped! :D
collision of air molecules with the walls of the container
When a gas is compressed, its volume decreases while the number of gas molecules remains the same. This leads to the gas particles being more concentrated in a smaller space, resulting in an increase in pressure according to the ideal gas law, which states that pressure is inversely proportional to volume.
As atmospheric pressure increases in a specific area, the gas particles in that area become more compressed and closer together. This compression leads to an increase in gas particle density in proportion to the increase in pressure. Conversely, as pressure decreases, the gas particles become less compressed and spread out, resulting in a lower gas particle density.
The weight of the air The distance between particles of a gas determines the pressure. The distance can be decreased and the pressure therefore increased by either increasing the amount of particles of gas in the container, or by reducing the size of the container.
In a perfectly elastic collision of gas particles, no kinetic energy is lost during the collision. This means that the total kinetic energy of the particles before the collision is equal to the total kinetic energy after the collision. As a result, the momentum and speed of the particles are conserved.
Pressure... hope I helped! :D
Pressure is defined as the force per unit area applied. This force is derived from the collision of particles. Pressure increase when this force is increase, and it applies otherwise too. By increasing the number of particles in a specific amount of gas, there are more particles colliding onto the container. This causes the force per unit exerted by the gas on the container to increase. As such, when one increases the number of particles within a container of gas, the pressure within the container will increase.
Gas pressure is affected by factors such as temperature, volume, and the number of gas particles present. For instance, increasing the temperature of a gas will increase its pressure, while decreasing the volume of a gas will increase its pressure as well. Additionally, having more gas particles in a given space will lead to higher pressure.
The motion of gas particles is related to pressure by the frequency and force of their collisions with the walls of the container. When gas particles move faster and collide more frequently, they exert a higher pressure on the container walls. On the other hand, slower particle motion results in lower pressure.
If the container is heated, the kinetic energy of the gas particles will increase, causing them to move faster and collide more frequently with the container walls. This increase in collisions will lead to a higher pressure within the container.
when the collision between the gas molecules and the container in which the gas exist is very high.....then the pressure of the gas is very high
becausse the particles in gas are far apart.
collision of air molecules with the walls of the container
You can increase the volume of a gas by increasing the pressure applied to it. By compressing the gas into a smaller space, the gas particles will occupy a larger volume due to the increased pressure. This does not change the number or type of particles present in the gas.
The number and vibration of the molecules that make up the gas cause the pressure.