How many cc is a PSI?
Gram/Cubic Centimeter to PSI/1000 feet Conversion Table
Gram/Cubic Centimeter [g/cc] | PSI/1000 feet [psi/1000ft] |
---|---|
1 | 433.53 |
2 | 867.06 |
3 | 1300.58 |
4 | 1734.11 |
What pressure corresponds to approximately 30 meters of water column?
Depth and hydrostatic pressure
Height of Water Column | Pressure | |
---|---|---|
(m) | (ft) | (psi) |
25 | 82.0 | 35.6 |
30 | 98.4 | 42.7 |
35 | 115 | 49.8 |
How do you convert psi to Ft h2o?
How to Convert PSI to ftH2O (psi to ftH2O) By using our PSI to ftH2O conversion tool, you know that one PSI is equivalent to 2.31 ftH2O. Hence, to convert PSI to ftH2O, we just need to multiply the number by 2.31.
What is the formula for PSI?
Use the formula pressure P = 0.43h where h is the water column in feet. We use the constant 0.43 (lb/in2)/ft because this is the amount of pressure 1 foot of water places on a surface below it regardless of the volume of water. meaning 860 psi of force is being exerted on the submarine.
How to convert cmH2O to pounds / square inch?
Use this page to learn how to convert between centimeters of water and pounds/square inch. Type in your own numbers in the form to convert the units! ›› Quick conversion chart of cmH2O to psi. 1 cmH2O to psi = 0.01422 psi. 10 cmH2O to psi = 0.14223 psi. 20 cmH2O to psi = 0.28447 psi. 30 cmH2O to psi = 0.4267 psi. 40 cmH2O to psi = 0.56893 psi
What is the ratio of cmH2O to Psi?
›› Quick conversion chart of cmH2O to psi. 1 cmH2O to psi = 0.01422 psi. 10 cmH2O to psi = 0.14223 psi. 20 cmH2O to psi = 0.28447 psi. 30 cmH2O to psi = 0.4267 psi. 40 cmH2O to psi = 0.56893 psi. 50 cmH2O to psi = 0.71117 psi. 100 cmH2O to psi = 1.42233 psi.
Which is greater 1 pascal or 1 cmH2O?
1 pascal is equal to 0.010197162129779 cmH2O, or 0.00014503773800722 psi. Note that rounding errors may occur, so always check the results.
How many megohms of water is needed for chromatography?
Our experience suggests that maintaining laboratory water at 14 to 18 megohms using a plastic system with plastic faucets eliminates the likelihood of bacterial organic and trace-metal contamination of the water. MeSH terms Chromatography, High Pressure Liquid