After an explosion, the gas molecules inside a tin rapidly expand due to the sudden release of energy and increased temperature. This expansion creates a high-pressure environment, causing the gas to disperse quickly into the surrounding area. The molecules move at higher speeds and collide with each other and the walls of the tin, leading to a chaotic and energetic state. Ultimately, the gas will diffuse into the atmosphere as pressure equalizes.
Gas pressure is caused by the molecules of gas striking the walls of a container, or in the case of Earth's atmosphere, the molecules of air hitting the earth. In a vacuum, there are no gas molecules. No molecules, no pressure.
The kinetic energy of the helium gas inside the balloon is due to the random motion of its molecules. As the gas molecules move and collide with each other and the walls of the balloon, they transfer energy in the form of kinetic energy. This energy contributes to the pressure inside the balloon and helps keep it afloat.
The pressure increases (apex)
The molecules slow down and begin to change back to the liquid state.
When a closed box is opened, the gas molecules inside are free to spread out and move into the surrounding space, increasing the volume occupied by the gas. The gas will fill the available space since gases expand to fill their container.
The rocket pushes back on the gas.
The rocket pushes back on the gas.
You get an explosion.
When a gas is compressed, the volume it occupies decreases, causing the gas molecules to be closer together. The number of molecules remains the same, as no molecules are added or removed during compression.
Molecules at zero will not be gas anymore. Molecules will then become a solid.
When the height of the trapped gas in the tube becomes zero, the gas molecules continue to move freely within the tube. Since no more gas can flow into or out of the tube, the pressure inside the tube increases. The gas molecules exert pressure on the walls of the tube evenly in all directions.
Gas pressure is caused by the molecules of gas striking the walls of a container, or in the case of Earth's atmosphere, the molecules of air hitting the earth. In a vacuum, there are no gas molecules. No molecules, no pressure.
from the gas laws and Charles 2nd law, it can be concluded that pressure is directly proportional to temperature..hence if the temp decreases; pressure also decreases as the kinetic energy of the molecules decreases; the collisions decrease hence pressure of the molecules inside the container decrease.
The molecules of the gas will stop moving.
The temperature of the gas decrease.
The liquid molecules are transformed in gas molecules.
Air and gas. What happens is conflagration, which is halfway between an explosion and an expansion of gas and air.