Yes it can because of the movement...
In a closed container, the gas pressure means the gas atom exerts on the wall of the container. If someone add volume of the gas to the container, it gives more chance for it to collide to the wall. on the other hand, if you heat the container(also the gas inside), it gives the gas atoms energy so it runs faster, it speeds up the chance of gas exert on the wall. it can also be explained as, in a period of time, more gas atoms have exerted to the wall of container.
Force exerts pressure. For example: At the surface of the Earth the column of air in the atmosphere above an area has a mass that exerts a force (due to gravity) on that surface area.
The pressure will increase. if you have done solubility in chemistry it is like when you heat something to help it dissolve faster, this is because the heat gives the particles more energy to move around. Pressure is basically the force of the particles of the gas bumping against the container it is in, and as before with the dissolving, you are just giving more energy to the particles so they are bumping against the container with a greater force, therefore increasing the pressure
Any liquid exerts equal pressure in all directions.
Exactly right! As long as there's a 'net' force ... that means anything left over that'snot zero after all the forces present are added up.So let's not forget the Newton's law that says that there's an equal and oppositereaction for every action.In this particular case, the action is the force that the liquid exerts on the container,and the reaction is an equal and opposite force that the container exerts on the liquid.The two forces are equal and opposite, so they add up to zero. There's no net forcewhere they meet, so nothing accelerates.If the force of the liquid is so great that the material of the container can't providean equal, opposite reaction, then the material of the container falls apart, and theliquid accelerates all over the place.
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.
Fluids are constantly trying to spread out, and that exerts pressure on the container you put it in.
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.
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.
average kinetic energy means the pressure that it exerts on the walls of the container if it is contained in it .
In a closed container, the gas pressure means the gas atom exerts on the wall of the container. If someone add volume of the gas to the container, it gives more chance for it to collide to the wall. on the other hand, if you heat the container(also the gas inside), it gives the gas atoms energy so it runs faster, it speeds up the chance of gas exert on the wall. it can also be explained as, in a period of time, more gas atoms have exerted to the wall of container.
take a bottle and make two holes on it then pour water in it you will see that two jet of water flowing from the holes the water lands equal distance from the bottle this how you can say that there is equal pressure the container
because liquid exerts more pressure more at the bottom tan at the top
Consists of the pressure the air exerts in the direction of flow (Velocity Pressure) plus the pressure air exerts perpendicular to the plenum or container through which the air moves. (static pressure) In other words: PT = PV + PS PT = Total Pressure PV = Velocity Pressure PS = Static Pressure http://www.refrigeration-engineer.com/forums/archive/index.php/t-14342.html
A simple way to think about it is: the pressure is the force per unit of area that a gas exerts on it's container caused by the molecules colliding with the container's walls. As the temperature increases, the molecules have more energy and collide with more force, so the pressure increases.
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.
Force exerts pressure. For example: At the surface of the Earth the column of air in the atmosphere above an area has a mass that exerts a force (due to gravity) on that surface area.