A gas will fill it's container freely, and evenly space itself throughout the container. Imagine an aerosol can of disinfectant sprayed into a room at one corner. The gas will eventually spread itself across the room evenly.
The horizontal dimensions of the container ... like length and width ... don't make any difference. But the pressure at the bottom is directly proportional to the depth of the liquid, which is ultimately limited by the height of the container.
'''''Decantation''''' is a fast method for separating a mixture of a liquid and a heavier solid. In this process , first the solid impurities are allowed to sediment at the bottom of the container. Then, the pure liquid is poured out carefully from the container into another container. The precipitate or solid is left behind at the bottom of the container.
You read a meniscus from the bottom to the top by looking at the lowest point of the curved surface of a liquid in a container. This is where the measurement is taken for volume.
These particles will settle to the bottom of the container.
A gas will fill it's container freely, and evenly space itself throughout the container. Imagine an aerosol can of disinfectant sprayed into a room at one corner. The gas will eventually spread itself across the room evenly.
as there are less inter molecular space between them they do not have a definite shape and so the liquids do not have any shape so if we pore it to any container it takes the shape of the container. MORE INFORMATION IF NEEDED:- WWW.bing.com WWW. Google.co.in WWW. Wikipedia.org are good sites to search information
The water pressure at the bottom of the container is calculated by dividing the total force by the area of the bottom surface. In this case, the water pressure at the bottom of the container would be 37.5 newtons per square meter (450 newtons ÷ 12 square meters).
it is molting
The density of the material is greater than the density of water if it sinks to the bottom of the container when placed in water.
The horizontal dimensions of the container ... like length and width ... don't make any difference. But the pressure at the bottom is directly proportional to the depth of the liquid, which is ultimately limited by the height of the container.
The pressure at the bottom of a container depends on the weight of the fluid above it, which is determined by the height of the fluid. The shape of the container does not affect the pressure at the bottom as long as the fluid column height is the same. The pressure increases with increasing fluid height due to the increase in weight of the fluid.
correct. volume is a measurement of the amount of something. You can measure out 1L of water in a beaker, and then pour it into a boot &it's still 1L H2O. It doesn't even have to be in a container. You can pour it on the ground, & you'll have 'spilled' 1L H2O on the floor.
Place container (3) beside container (6) at the bottom Place container (2) above the other container (3) place it in middle Left most pipe (2) route it with elbows until the down pipe then place a right elbow to fill container (3) at the bottom 2nd pipe (2) place a left elbow to fill container (2) 3rd pipe (3) place a left elbow to fill the container below container (2) pipe (1) elbow around the right side to reach the middle to fill bottom container (3)
The density of the material is greater than the density of water because it sinks to the bottom of the container. Objects with a density greater than that of water will sink in water.
Denser particles in a rotating container will tend to move towards the bottom, away from the axis of rotation due to centrifugal force. This is because denser particles have more inertia and are less affected by the rotation.
It is the container on the bottom of the engine.