Equation of state in form which relates mol fraction and molarity of two (or more) component thermodynamic system consisted of ideal gases, and it's applications.
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Most people would face a problem if there is a need to calculate the mole fraction of a substance A in a gaseous solution (a thermodynamic system containing two or more ideal gases) knowing its molarity at a given temperature and pressure. For most it would take a lot of time and calculations to find the answer, especially because the quantities of other substances in the system aren’t given. An even greater problem arises when we try to understand how special relativity affects gaseous systems, especially solutions and systems in equilibrium. In this paper formulas are suggested that greatly shorten the process of conversion from molarity to mole fraction and give us a better insight into the relativistic effects on a gaseous system.
Ključne reči:
mol fraction / molarity / ideal gas / equation of state / special relativityIzvor:
Thermal Science, 2010, 14, 3, 859-863Izdavač:
- Society of Thermal Engineers of Serbia
DOI: 10.2298/TSCI100325009P
ISSN: 0354-9836
WoS: 000283410400027
Scopus: 2-s2.0-78649932615
Institucija/grupa
IHTMTY - JOUR AU - Popović, Marko PY - 2010 UR - https://cer.ihtm.bg.ac.rs/handle/123456789/6116 AB - Most people would face a problem if there is a need to calculate the mole fraction of a substance A in a gaseous solution (a thermodynamic system containing two or more ideal gases) knowing its molarity at a given temperature and pressure. For most it would take a lot of time and calculations to find the answer, especially because the quantities of other substances in the system aren’t given. An even greater problem arises when we try to understand how special relativity affects gaseous systems, especially solutions and systems in equilibrium. In this paper formulas are suggested that greatly shorten the process of conversion from molarity to mole fraction and give us a better insight into the relativistic effects on a gaseous system. PB - Society of Thermal Engineers of Serbia T2 - Thermal Science T1 - Equation of state in form which relates mol fraction and molarity of two (or more) component thermodynamic system consisted of ideal gases, and it's applications. VL - 14 IS - 3 SP - 859 EP - 863 DO - 10.2298/TSCI100325009P ER -
@article{ author = "Popović, Marko", year = "2010", abstract = "Most people would face a problem if there is a need to calculate the mole fraction of a substance A in a gaseous solution (a thermodynamic system containing two or more ideal gases) knowing its molarity at a given temperature and pressure. For most it would take a lot of time and calculations to find the answer, especially because the quantities of other substances in the system aren’t given. An even greater problem arises when we try to understand how special relativity affects gaseous systems, especially solutions and systems in equilibrium. In this paper formulas are suggested that greatly shorten the process of conversion from molarity to mole fraction and give us a better insight into the relativistic effects on a gaseous system.", publisher = "Society of Thermal Engineers of Serbia", journal = "Thermal Science", title = "Equation of state in form which relates mol fraction and molarity of two (or more) component thermodynamic system consisted of ideal gases, and it's applications.", volume = "14", number = "3", pages = "859-863", doi = "10.2298/TSCI100325009P" }
Popović, M.. (2010). Equation of state in form which relates mol fraction and molarity of two (or more) component thermodynamic system consisted of ideal gases, and it's applications.. in Thermal Science Society of Thermal Engineers of Serbia., 14(3), 859-863. https://doi.org/10.2298/TSCI100325009P
Popović M. Equation of state in form which relates mol fraction and molarity of two (or more) component thermodynamic system consisted of ideal gases, and it's applications.. in Thermal Science. 2010;14(3):859-863. doi:10.2298/TSCI100325009P .
Popović, Marko, "Equation of state in form which relates mol fraction and molarity of two (or more) component thermodynamic system consisted of ideal gases, and it's applications." in Thermal Science, 14, no. 3 (2010):859-863, https://doi.org/10.2298/TSCI100325009P . .