To expand
Yes
Liquids take the shape of their container due to their ability to flow and conform to the shape of the container. They also exert pressure evenly on the container's walls in all directions. Liquids at rest have a flat top surface, which is a characteristic behavior known as surface tension.
'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
Liquids exert pressure in all directions because the particles in a liquid are in constant motion and collide with the walls of the container as well as with each other. This creates a force that is evenly distributed in all directions, leading to pressure being exerted uniformly throughout the liquid. This can be demonstrated by observing that liquid levels are the same at all points within a closed container.
It is because of the continuous bombardment of liquid molecules on the wall.
Yes, all fluids exert pressure. Pressure is a fundamental property of fluids and is caused by the molecules in a fluid colliding with the walls of the container or object they are in contact with.
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.
Even if the pressure inside a container is equal to the pressure outside a container, there is still pressure. It's like pushing a friend one way while he pushes you back. Neither of you may be moving, but you're still pushing. The sample of gas would exert exactly one atmosphere of pressure (or 100 kPa) on the container. The question then becomes whether the container can withstand that pressure.
Gases have no fixed shape or volume, allowing their molecules to move freely and fill the entire space available to them. As a result, gas molecules collide with the walls of their container in all directions, exerting pressure uniformly in all directions. In contrast, solids and liquids have fixed shapes and volumes and thus exert pressure in a more localized manner.
Gases and liquids are both considered fluids because they can flow and take the shape of their container. They can exert pressure on the walls of their container and have molecules that move freely past each other. However, liquids have higher density and are less compressible compared to gases.
Gases exert pressure by colliding with the walls of their container due to the random motion of their molecules. This constant bombardment of the container walls creates pressure, which is a measure of the force per unit area exerted by the gas molecules.
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.