All the same. One atmosphere (about 760 mm Hg).
The pressure inside the container would decrease.
The molecules of the gas are in constant motion and their collisions with the sides of the container exerts a force which is felt as pressure.
A pressure difference is created, low pressure on the inside and higher pressure on the outside (the atmospheric pressure). The atmospheric pressure crushes the plastic container, acting on the outer plastic walls.
Heating a gas in a closed container would increase it's pressure. This would happen because when you heat the gas, the particles' kinetic energy increases, making them move faster, and more. They will hit the sides of the container and create pressure.
The air pressure is greatest at sea level.
at the ocean and going deeper into it
They all have the same
vurtually no molecules will be in the container... and great force will be put on the walls of the container
In a small volume container the pressure is higher.
Because weight exerts pressure as it 'accumulates'. There is little weight at the top of the container, but as gravity attracts the liquid towards the bottom of the container, so the pressure is greatest there. Put some water into a balloon and see where the pressure of the water pushes on the skin of the balloon.
The pressure inside the container will increase. Pressure (P) is force(F) divided by the area(A) it hits on. If you decrease the area, you increase the pressure.
Contact between the particles of a gas and walls of the container cause pressure in a closed container of gas.
The pressure exerted by the pressure head of liquid steel in a container at bottom surface of the container is known as ferro static pressure.
The pressure inside the container would decrease.
The pressure increases if the container gets smaller or the gas heats up. The pressure decreases if the container gets bigger or the gas cools off.
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The pressure of a sample of helium in a 1.00- L container is 0.988 atm. What is the new pressure if the sample is placed in a 200- L container