ideal gas thermometric scale 【化】 理想气体温标 相似单词 ideal(perfect)gas 理想流体 ideal n.[C] 1.理想,观念,思想 2.最后目标 adj. 1.理想的,空想的 2.完美的 3.观念的 4.唯心论的 Ideal 铜镍合金 constant a. 1.固定的,不变的 2.不停的,接连不断的,持续的 3.【书】忠诚的,忠贞不...
universal gas constant,R natural philosophy,physics- the science of matter and energy and their interactions; "his favorite subject was physics" constant- a number representing a quantity assumed to have a fixed value in a specified mathematical context; "the velocity of light is a constant" ...
1) ideal gas constant 理想气体常数2) ideal gas constant R 理想气体常数R 1. According to Dalton's law of partial pressures,the principle of experiment "Determination of the ideal gas constant R",the volume and pressure of hydrogen produced in the experiment were analyzed and discussed. 从...
The equation for the Ideal Gas Law is: PV = nRT P = Pressure (atm) V = Volume (Liters – L) n = Number of moles (mol) R = The Ideal Gas Constant (0.08206 L-atm/mol-K) T = Temperature (Kelvin)Ideal Gas Law Formula Questions: 1.) How many moles of gas are contained in...
n = is the number of moles of the gas present Ru = universal gas constant [J/mol K], [lbf ft/(lb mol o R)]= 8.3145 [J/mol K]= 0.08206 [L atm/mol K] = 62.37 [L torr /mol K] T = absolute temperature [K], [ o R] For a given quantity of gas, both n and Ru are ...
www.dictall.com|基于8个网页 2. 理想气体气体常數 ...重量为10公斤,丙烷之燃烧爆炸下限为2.1%,已知理想气体气体常數(Ideal Gas Constant)值为0.082 m tw.myblog.yahoo.com|基于4个网页
R: Gas universal constant, which is equal to 8.31 JKelvin.mol or 0.082 Litre.atmKelvin.molor 10.732 psift3Rankine.mol.pound T: Temperature of the gas in Rankine (R) or Kelvin (K) The pressure, temperature, and volume of gas can be converted as follows: 1atmosphere=1.013×105Pascal=14.7...
Ideal Gas Constant - Bioprocess Engineering Principles (Second Edition) - Appendix Bdoi:10.1093/cvr/5.supp1.101E A JohnsonN ShepherdELSEVIERBioprocess Engineering Principles
R = ideal or universalgas constant= 0.08 L atm / mol K T =absolute temperaturein Kelvin Sometimes, you may use another version of the ideal gas law: PV = NkT where: N = number of molecules k = Boltzmann constant = 1.38066 x 10-23J/K = 8.617385 x 10-5eV/K ...
To calculate the work done by one mole of an ideal gas during expansion from a volume of 3 L to 5 L under a constant pressure of 1 atm, we can follow these steps:1. Identify the Given Values: - Initial Volume (Vinitial) = 3