14"
A bar is a measure of pressure while a foot is a measure of distance. Pressure can support a column of a specified substance and the length of that column can be used to as a measure of the pressure. However, no substance has been specified and so it is not possible to answer the question.
10 meters of water depth equals about 1 atmosphere.
10 pounds of water (molten ice) = 1 imperial gallon. (at standard atmospheric pressure and temperature).
It depends on the pressure.
14 inches equals one pound of natural gas pressure
14"
You need to know how high the water column is to calculate the pressure it exerts at its base! For example, a column of water 1 metre deep would exert a pressure of 9.81 kPa at its base (density x gravity x depth - 1000 * 9.81 * 1). This would be equal to approx 1.42 PSI.
6?
1 psig is equivalent to 51.71 mm (2 in) of mercury or to approx 700 mm (27.5 in) of water. Technically one cannot have apsig. Psig represents a pressure reading of the pressure above normal atmospheric pressure of 14.7 psi. You mean a psi.
Well that depends, first off pressure is equal to specific gravity times height. P=SG*h. so the pressure due to the water column would be 0.0361 psi given that SG of water = 62.4 lb/ft^3. Then you have to take into consideration any other pressures acting on the water. If the top of the column is open to the air then the absolute pressure would be 14.7321 psi given that atmospheric pressure is 14.696. The basic formula to make this calculation in any situation is P=P0+SG*h where P0 is the pressure above the column.
8 ounces
Thangaj
It is 0.000039 inches, approx.
A bar is a measure of pressure while a foot is a measure of distance. Pressure can support a column of a specified substance and the length of that column can be used to as a measure of the pressure. However, no substance has been specified and so it is not possible to answer the question.
One atmosphere is equal to the pressure exerted by a column of water 33 feet (10 meters) high. This means that being 33 feet under the ocean would result in a pressure equivalent to one atmosphere.
To raise water 1 meter, you would need to exert a pressure equivalent to the weight of the water column above. For water, the pressure increase with depth is 9.81 kPa per meter. Therefore, to raise water 1 meter, you would need to apply a pressure of 9.81 kPa.