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What effect does the size of the container have on the pressure of the liquid at its bottom?
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.
What is the velocity of the container from which liquid is coming out from hole at its bottom?
This question does not provide enough information on the relevant parameters to even attempt an answer. One would assume that if the hole is at the bottom of the container (and not on the side at the bottom) and the liquid is coming out of the hole only due to gravity that the the container would remain stationary. If there is internal pressure in the container, then the initial pressure becomes important as does the time since the water began to flow. If the hole is on the side of the container, then friction between the container and the surface it is resting on become significant. If the container is not circular in cross section, then the location of the hole along the side helps determine whether the container moves laterally or spins.
How does the air pressure change between the bottom of the mountain and its summit?
Air pressure decreases as you move from the bottom of a mountain to its summit. At higher altitudes, there is less air above pushing down on the air below, causing the air pressure to decrease. This decrease in pressure can lead to various physiological effects on the body.
How does the diameter of a column of water affect the pressure at the bottom of the column?
Well, honey, the diameter of a column of water doesn't give a hoot about the pressure at the bottom - it's all about the height of the column. The pressure at the bottom is solely determined by the weight of the water above it, not how fat or skinny the column is. So, don't worry about measuring the diameter, just focus on how tall that water tower is!
As the depth of a glacier increases is there more pressure on the bottom leading to more heat?
Yes, as the depth of a glacier increases, there is more pressure on the bottom due to the weight of the overlying ice. This pressure can lead to an increase in heat at the base of the glacier due to the process of pressure melting, where the ice melts under pressure and the water can reach temperatures close to the pressure melting point.
How does the pressure at the bottom of a container depends on the container shape and the fluid height?
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.
What effect does the size of the container have on the pressure of the liquid at its bottom?
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.
Does height of water column depend upon pressure?
Yes, the height of a water column in a container does depend on the pressure acting on it. The greater the pressure, the higher the water column will be due to greater force pushing the water upwards. This is based on the principle of hydrostatic pressure in fluid mechanics.
Why liquid pressure greatest in bottom?
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.
How does the pressure of a liquid depend on its depth?
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 =)
What is the velocity of the container from which liquid is coming out from hole at its bottom?
This question does not provide enough information on the relevant parameters to even attempt an answer. One would assume that if the hole is at the bottom of the container (and not on the side at the bottom) and the liquid is coming out of the hole only due to gravity that the the container would remain stationary. If there is internal pressure in the container, then the initial pressure becomes important as does the time since the water began to flow. If the hole is on the side of the container, then friction between the container and the surface it is resting on become significant. If the container is not circular in cross section, then the location of the hole along the side helps determine whether the container moves laterally or spins.
What does water pressure not depend on?
Water pressure does not depend on the temperature of the water. It is mainly determined by factors such as the height of the water source, the size of the water pipe, and the force exerted on the water.
What doesnot cause the height of mercury column to vary?
A change in the material of the container holding the mercury does not cause the height of the mercury column to vary. The height of the mercury column is determined by the atmospheric pressure acting on the surface of the mercury in the container.
A tank with a flat bottom is filles with water to a height of 3.5 meters what is the pressure at any point at the bottom of the tank?
c-34.3kpa
A tank with a flat bottom is filled with water to height of 3.5 meters what is the pressure at any point at the bottom of the tank?
Pressure is given by the formula P = h * d * g Here h is the depth or height of surface right from bottom. Given as 3.5 m d = density of water i.e. 1000 kg/m^3 g = 9.8 m/s^2 You could plug and get the value of P at bottom in pascal
Would water pressure be the same at the same depth in two containers that had very different shapes?
Yes, water pressure at the same depth is determined by the height of the water column, not the shape of the container. As long as the depth is the same in both containers, the water pressure will be equal.
About how tall is 1 leater?
Assuming you're talking about a litre, it is a unit of volume not height, thus it's height depend on the size of the container the litre is being contained in.I hope this is of help.
