yes we can achieve.
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Forty-five milligrams of mercury.
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The Antoine equation for methane looks like: log10(P) = 6.69561 - 405.420 / (T +267.777). P is in mm Hg, T is in degrees C within temperature ranges -181 < T < -152.
The maximum vacuum possible in inches of mercury (Hg) is considered to be 0 inches Hg, which represents a perfect vacuum where there is no pressure or air present.
0 mmHg is equivalent to 0 psia because both represent a pressure of zero relative to absolute vacuum. However, 760 mmHg is equal to 14.7 psia, not 0 psig. 760 mmHg is equivalent to atmospheric pressure, which is the reference point for psig.
760 mm Hg is the standard barometric (atmospheric) pressure. It is the pressure giving a pillar of mercury (the elemental abbreviation of mercury is Hg) that is 760 millimeters (mm) high.
760 mm Hg = 1 atm therefore there are 1/760 atmospheres in 1 mm Hg.
1atm is equal to 760mmHg. Therefore, .520atm * 760mmHg/1atm = 395.2mmHg
This value is 1 atmosphere=760 mm Hg.
The phrase "760 mm Hg" is physicists' shorthand for "an atmospheric pressure equal to that needed to support a column of mercury [chemical symbol Hg] of length 760 mm". This is approximately average atmospheric pressure at sea level. As the pressure decreases from "760 mm Hg" to "350 mm Hg", the volume of the gas will increase (assuming a constant temperature). The new volume can be determined using Boyle's Law: New Volume = 30 x 760 / 350 = 65.143 Litres
1 atm of pressure equals 760 mm Hg, so 2 atm = 1520 mm Hg.
1 atm = 760 mm Hg = 760 torr = 101,325 kPa = 1,01325 bar
Convert mmHg to ATM using 1 ATM = 760 mmHg as a conversion factor.
760 mm Hg is 1 atmosphere, so approx 1 bar. It is 1.013 bar, which is 1013 milibars.
(ATA - 1) x 760