33 feet equals 1 atmosphere or 14.7 psi.
There are 1.9 cups of water in 8 ounces since 1 cup is equivalent to 8.45 ounces.
"Centimeter" is a unit of length. "Length of water" isan awkward and quite useless concept.
How long is a piece of string? Ounces measures liquid - so, how much do you have? A small drink in a coffee shop is about 8 ounces, which is also the size of a typical glass or mug in your kitchen. Ounces of water is the amount of water that weighs one ounce. There are 16 ounces in a pound. One ounce is about 28.4 grams (or cc's of water), if you are used to metric.
There are 2.64 ounces in 2.64 liquid ounces.
To find out how many ounces of chemical it would take to make 100 gallons of finished dilution at 0.5%, we can set up a proportion. Since 11 ounces of chemical are used in 10 gallons of water, we can establish the ratio of ounces of chemical to gallons of water as 11:10. By setting up a proportion and solving for x, we find that it would take 110 ounces of chemical to make 100 gallons of finished dilution at 0.5%.
8 ounces
14 inches equals one pound of natural gas pressure
6?
Negative inches of water column (inches of vacuum) represent the pressure below atmospheric pressure. For example, -1 inch of water column indicates a vacuum that is 1 inch lower than atmospheric pressure. In general, the more negative the inches of water column, the stronger the vacuum. Thus, -10 inches of water column corresponds to a vacuum of 10 inches below atmospheric pressure.
1000KN/m2
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.
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.
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.
16.9 ounces applies to anything -so 16.9 ounces of water.
That is 24.692 ounces of water.
One liter of water is equal to about 33.8 fluid ounces.
That is 6.26 ounces of water