To calculate the psi needed to lift a weight, you would need to know the weight being lifted and the surface area over which the weight is distributed. You can then use the formula: psi = (weight / surface area). Make sure that the units of weight and surface area are consistent, such as pounds for weight and square inches for surface area.
To calculate the psi from a given flow rate, you can use the formula: psi (flow rate in gallons per minute) / 2.31. This formula helps you convert the flow rate into pressure in pounds per square inch (psi).
To calculate the PSI (pounds per square inch) of a corrugated box, you would typically divide the total weight the box can hold (in pounds) by the surface area of the box (in square inches) that is carrying that weight. This calculation gives you the pressure exerted on the walls of the box in pounds per square inch.
Pressure, measured in psi (pounds per square inch), does not have a weight. Pressure is a force distributed over a given area. In this case, 1000 psi indicates the amount of force applied over one square inch.
The dead weight load can be calculated by multiplying the pressure (1000 psi) by the contact area (2 sq in). In this case, the load would be 2000 pounds.
To calculate water pressure in pounds per square inch (psi), you can use the formula: pressure force / area. This means that you divide the force exerted by the water on a surface by the area of that surface. The result will give you the water pressure in psi.
To calculate the psi from a given flow rate, you can use the formula: psi (flow rate in gallons per minute) / 2.31. This formula helps you convert the flow rate into pressure in pounds per square inch (psi).
To calculate head pressure in psi from a head height given in feet you multiply by 0.434. 15 x 0.434 = 6.51 psi
To calculate the PSI (pounds per square inch) of a corrugated box, you would typically divide the total weight the box can hold (in pounds) by the surface area of the box (in square inches) that is carrying that weight. This calculation gives you the pressure exerted on the walls of the box in pounds per square inch.
Pressure, measured in psi (pounds per square inch), does not have a weight. Pressure is a force distributed over a given area. In this case, 1000 psi indicates the amount of force applied over one square inch.
With a compression gauge.
Simple equation: ECD, ppg = [ (annular pressure, loss, psi ) ÷ (0.052 x TVD, ft) ] + (mud weight, in use, ppg)
3000 psi concrete weighs Approx 3900 Lb/yd3
The dead weight load can be calculated by multiplying the pressure (1000 psi) by the contact area (2 sq in). In this case, the load would be 2000 pounds.
Not enough info to answer. You didn't tell us the area of the contact surface, which we'd need to know in order to calculate it.
To calculate water pressure in pounds per square inch (psi), you can use the formula: pressure force / area. This means that you divide the force exerted by the water on a surface by the area of that surface. The result will give you the water pressure in psi.
To calculate the force generated by the piston, you can use the formula: Force = Pressure × Area. Given that the pressure is 100 psi and the area is 18 square inches, the force is 100 psi × 18 in² = 1,800 pounds. Therefore, a force of 1,800 pounds is generated when 100 psi is applied to the piston.
To calculate absolute pressure when a barometer reading is given, simply add the barometer reading to the atmospheric pressure at sea level, which is approximately 101.3 kPa or 14.7 psi. This will give you the absolute pressure at the specific location where the barometer reading was taken.