Web10 foot of head to psi = 4.33417 psi. 20 foot of head to psi = 8.66833 psi. 30 foot of head to psi = 13.0025 psi. 40 foot of head to psi = 17.33666 psi. 50 foot of head to psi = 21.67083 … WebNov 26, 2024 · Our hydrostatic pressure calculator uses the below hydrostatic pressure formula: p = ρ × g × h + p0, where: p – Hydrostatic pressure; ρ – Density of fluid; g – Gravitational acceleration (the average …
Convert psi to foot of head - Conversion of Measurement …
WebThe M-180S sports field sprinkler has a 177-foot wide radius and features an integral electric valve-in-head. ... the M-180S operates at 58 to 115 psi, distributing from 113 to 302 gallons per minute. The sprinkler has a pop-up height of 3.03 inches and a range of nozzles from 16 to 24 millimeters. ... the M-180S operates at 58 to 115 psi ... WebApr 6, 2024 · The PSI stands for pound per square inch. So, 1 PSI = 27.7076 inches of water. So, the PSI to Inches of Water Formula says that to obtain an approximate result, we should multiply the pressure value by 27.708. Example 1: Also, one inch of the water column equals the pressure of around 1/28 pound per square inch (psi). physiotherapist clinic lagos
Water Pressure Formula - Equation, Calculation, Examples and …
WebDec 8, 2024 · The pressure, P of a fluid at depth depends only on the density, ρ, the acceleration of gravity, g, and the depth or height of the fluid column, h. P = ρ g h The calculator uses the following values for these parameters: ρ f r e s h = 997.0474 k g / m 3 (for freshwater) ρ s a l t = 1023.6 k g / m 3 (for saltwater) g = 9.80665 m / s 2 Learn More WebThis calculator and conversion scale will convert the height or depth of a fluid in any units to a measurement of hydrostatic head pressure, and display a list of conversion values above and below the entered liquid … WebDec 6, 2012 · 1,509. 33. The formula for psi of static pressure is the height in feet times approximately .43 (or divided by approximately 2.33). Multiply the height of the water above any point by the area of the tube at that point and you can determine the total static pounds of pressure acting on that area. Such as a point 10' down the tube would be about ... toot harshly