well here:
DO YOUR HW ALONE
consider an enclosed container with liquid filled to the brim, the pressure at any point in the container due to the liquid is given by this formula Pressure = height x density x acceleration due to gravity, and the height we are using here is not the height of this point above the ground, but instead it is the height difference (or simply length) between this point and the top of container, as we are measuring the pressure at this point due to the liquid above. similarly, you can consider a container that is not enclosed but you must remember to include the atmostpheric pressure into the total pressure at the particular point you are measuring. hope this helps =)
3.5kpa
Because above the bottom most layer there is maximum height of the liquid stands on. Also the expression for the pressure is hdg. h- height of the liquid. d-density of the liquid. g-acceleration due to gravity. Hence maximum h leads to max pressure.
the answer isC. 34.3 kPa
Since we are ignoring atmospheric pressure, the pressure at the bottom of the tank is given by p = dgh. Where d equals density, g is acceleration of gravity, and h is the height below the fluid surface. In this case, the density of water is 10^3 kg/m^3, the acceleration of gravity is 9.8 m/s^2, and the height is 4 m. This means the pressure is 39.2 kPa.
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.
I think the depth of a glacier depends on it height
consider an enclosed container with liquid filled to the brim, the pressure at any point in the container due to the liquid is given by this formula Pressure = height x density x acceleration due to gravity, and the height we are using here is not the height of this point above the ground, but instead it is the height difference (or simply length) between this point and the top of container, as we are measuring the pressure at this point due to the liquid above. similarly, you can consider a container that is not enclosed but you must remember to include the atmostpheric pressure into the total pressure at the particular point you are measuring. hope this helps =)
It depends on the volume of the container in question. A container could be 4 inches in height but could be 40,000 cubic inches.
it depends on what type of container it is. for a cylinder its: radius squared time pi times height. for a rectangular prism its length times height times width.
It depends on whether the pipe is open or closed and what it contains. If the pipe is full of water to a height of 40 m and open at the top, the pressure at the bottom is about 57 psig. The diameter doesn't matter.
3.5kpa
It depends on how much water there is to move. It requires more pressure to move more mass. It also depends on the properties of the substance which is being used to displace the water.Let x be the distance from the bottom of the cylinder to the top of the water.The container of the water is a cylinder with a diameter of 2 inches.area = Pi * ((2 / 1) ^ 2) area = Pi * (2 ^ 2)area = Pi * 4The area of the base times the height of the water reveals the volume.vol = height * area vol = height * (4 * Pi)
It is pressed by the bottom of the earths crust and pressured up to the top of the mountain and the mountain begins to break. It takes about 500 years to break.
c-34.3kpa
Because above the bottom most layer there is maximum height of the liquid stands on. Also the expression for the pressure is hdg. h- height of the liquid. d-density of the liquid. g-acceleration due to gravity. Hence maximum h leads to max pressure.
the answer isC. 34.3 kPa