'This is because the air particles are bumpinginto each other and the walls. When this happens it causes pressure on the walls because of the speed the air particles are moving
Gas particles are free moving molecules. As they move around they can build speed. When they bump into the walls of their container these molecules exert pressure.
Gas particles are in random motion and once they strike the wall of the container, they exert a force on some area.
Force/Area = Pressure
The particle's move fast so they collide with each other and the container so that's how gases exert a pressure on the inside's of a container.
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The number and vibration of the molecules that make up the gas cause the pressure.
The mass of the gass, the volume of the container holding the gas, and the temperature of the gass. If you have a container of gas, the greater the mass of the gas, the more molecules there are in the container, and this leads to greater pressure. If you have a fixed mass of gas, changing the volume of the container holding the gas will cause the pressure to change. Increasing the volume of the container decreases the pressure. Decreasing the volume of the container increases the pressure. If you increase the temperature of a gas without changing its mass or volume, pressure increases.
The greater the speed of gas particles in a container, the higher the overall average temperature and kinetic energy of the gas particles. And if volume was held constant, higher the pressure.
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.
The gaseous molecules are in continuous random motion and during their motion continuously strike the walls of container and exert the force on walls,the force per unit area is the pressure of the gas.
Contact between the particles of a gas and walls of the container cause pressure in a closed container of gas.
Kinetic theory explains the pressure that a gas exerts on the walls of its container. This describes elastic collisions between the atoms or molecules in the gas with the container's walls, which collectively exert a measureable pressure.
Yes. Any sample of gas in a closed container will exert pressure on the container, as long as the temperature of the gas is above absolute zero. You can force the gas into a smaller volume by shrinking the container, but that action raises the temperature and pressure of the gas.
Contact between the particles of a gas and walls of the container cause pressure in a closed container of gas.
This is part of Boyle's Law.
the particles of gas bouncing into the walls of the container.
A gas exerts pressure on the container because it is bouncing off the walls of the container at a certain force. The greater the force is the greater the pressure.
The number and vibration of the molecules that make up the gas cause the pressure.
collisions between the particles of gas and the container walls
collisions between the particles of gas and the container walls
Pressure.
Gas pressure