You COULD... since theoretically the "R" value is a constant and so is arbitrary.. but to keep it simple.. use the kPa in the ideal gas law.. with R as 8.314
Assuming ideal gas law, and closed system (constant volume) P1/T1=P2/T2, ensuring that the Temperature is in Kelvin so the new P is =854.5 kpa
The reference conditions for gas volume are 0oC and 101.325 kPa, corresponding with a molar (ideal) gas volume of 22.414m3 / (kg.mol). This is shown as m3 (normal) or abbreviated to (non-SI) "Nm3".A unit not frequently used are standard cubic metres "sm3"; Conditions at 0oC and 101.325 kPa.
Pressure of 23.8 in Hg to kPa is equivalent to 80596.0582 Pa (pascal)
The pressure is 207,5 kPa.
The molar volume of an ideal gas at 25 0C and 100 kPa is 0,875 436 4 cubic feet.
Assuming ideal gas law, and closed system (constant volume) P1/T1=P2/T2, ensuring that the Temperature is in Kelvin so the new P is =854.5 kpa
More pressure means less volume. Calculate the ratio of pressure, then divide the 4.2 liters by that ratio.This assumes: * That the temperature doesn't change. * That the gas behaves like an ideal gas.
When using the pressure formula. PV=nRT. Pressure(in ATM) x Volume(in liters)=n(number of moles) x R(gas constant=.0821) x Temperature(in kelvins)If you are given pressure in kpa you have to convert to ATM
Yes. 85 psi is equal to about 586.1 kPa
ATM x 101.325 = kPa So, 2.5 x 101.325 = 253.312 kPa
The ideal gas constant has different values depending on the units one uses for pressure. Thus, if using atmospheres, R = 0.0821 L-atm/K-mole. If using kPa, R = 8.314 L-kPa/K-mole, and if using mm Hg, R = 62.36 L-mm Hg/K-mole.
(1 kPa = 0.145038 psi). So, 220 kPa x 0.145038 = 31.9083 psi
3.45barg
The absolute pressure is approximately 256 kPa.
Conversion for kPa to mmHG: kPa x 7.501 = mmHg202.6 kPa x 7.501 = about 1,520 mmHg
The reference conditions for gas volume are 0oC and 101.325 kPa, corresponding with a molar (ideal) gas volume of 22.414m3 / (kg.mol). This is shown as m3 (normal) or abbreviated to (non-SI) "Nm3".A unit not frequently used are standard cubic metres "sm3"; Conditions at 0oC and 101.325 kPa.
Pressure of 23.8 in Hg to kPa is equivalent to 80596.0582 Pa (pascal)