PF = pressure base at which volume or Btu factor is being converted from PT = pressure base at which volume or Btu factor is being converted to Mcf@PF times (PF divided by PT) = Mcf@PT 1000Mcf @ 14.73 times (14.73 divided by 14.65) = 1005Mcf @ 14.65
multiple volume by .98036606
Base
because the increasing area of contact will decrease the pressure of building on the base
Energy
Titration is used to calculate the molarity of an acid or base (standardising), using a base or an acid respectively with a known molarity (primary standard).
pH = - log [H+] Substitute and solve for [H+]: 7.5 = - log [H+] = 3.16E-8 That is the concentration of H+ ions. Depending on the acid, you calculate concentration of the acid based on this. Kw (dissociation constant) for water = 10^-14 Kw = [H+]*[OH-] Substitute and solve for the concentration of OH- = 3.16E-7 Depending on the base, you calculate the concentration of the base from this.
You can't. In addition to the cylinder's diameter, the pressure at its base also depends on the density and depth of the fluid in the cylinder ... which gives you the weight of fluid resting on the base area. The pressure alone is not enough information to allow you to calculate the diameter.
The Pressure is .434 times the height The FORCE takes a lot more calculations as the height and the weight of the water has to be calculated in plus the hydra-static pressure
Assumptions:Density of water = 1000 kgm-3.Gravitational acceleration = 9.81 ms-2To calculate the pressure head of a 1 m depth of water, it is necessary to find the unit weight:Unit Weight = Density x gravityUnit Weight = 9810 Nm-3To calculate the pressure head at the base of the column of water:Pressure = Unit Weight x DepthPressure = 9810 x 1Pressure = 9810 PaThe resulting pressure is 9.81 kPa.
what the base word for calculator
what is the atmospheric pressure base in Pennsylvania
It is the Latin base word.
At the base.
base of a mountain
The same as you would calculate any other area. For example, if the base happens to be rectangular, you multiply length x width.
bigger base + smaller base x height/2
On base percentage plus slugging percentage
Every 2.3077 feet of water in a column increases the water pressure at the bottom of the column by 1 pound per square inch.A 39 foot column of water with a pressure of 120 psi at the base will have a pressure exerted on its top surface of 103.1 psi.39 ft/ 2.3077 ft/1 psi = 16.9 psi ; 120 psi -16.9 psi = 103.1 psievery meter of water in a column increases the pressure at the base of the column by 0.1 kg./ sq. cm (or 1 kilopascal)A 12 meter column of water exerts a pressure at its base of 12 kPa. (or 1.2 kg/sq. cm)