Results 131 to 140 of about 681,344 (199)
Intelligent Gas Sensors: From Mechanism to Applications. [PDF]
Sensors (Basel)Wei J, Peng Q, Xie Y, Chen Y.
europepmc +1 more source
Revisiting the Classification of Physisorption Isotherms with Classical Density Functional Theory. [PDF]
J Phys Chem BBernet T, Canu C, Jackson G.
europepmc +1 more source
Some of the next articles are maybe not open access.
Related searches:
Related searches:
2022
This chapter evaluates real gases, which do not obey the perfect gas law. The extent of deviations from perfect behaviour is summarized by introducing the compression factor. Meanwhile, the virial equation is an empirical extension of the perfect gas equation that summarizes the behaviour of real gases over a range of conditions.
Peter Atkins +2 more
openaire +2 more sources
This chapter evaluates real gases, which do not obey the perfect gas law. The extent of deviations from perfect behaviour is summarized by introducing the compression factor. Meanwhile, the virial equation is an empirical extension of the perfect gas equation that summarizes the behaviour of real gases over a range of conditions.
Peter Atkins +2 more
openaire +2 more sources
Physik in unserer Zeit, 2010
AbstractIm Jahr 1910 erhielt der Niederländer Johannes Diderik van der Waals (1837–1923) den Physik‐Nobelpreis für seine Arbeiten über die Zustandsgleichung der Gase und Flüssigkeiten.
openaire +1 more source
AbstractIm Jahr 1910 erhielt der Niederländer Johannes Diderik van der Waals (1837–1923) den Physik‐Nobelpreis für seine Arbeiten über die Zustandsgleichung der Gase und Flüssigkeiten.
openaire +1 more source
2009
Abstract This chapter introduces several equations of state, which take into account the interactions between molecules in a gas. These include the van der Waals model, the Dieterici model, and the virial expansion. The law of corresponding states is discussed.
Stephen J. Blundell +1 more
openaire +1 more source
Abstract This chapter introduces several equations of state, which take into account the interactions between molecules in a gas. These include the van der Waals model, the Dieterici model, and the virial expansion. The law of corresponding states is discussed.
Stephen J. Blundell +1 more
openaire +1 more source
COMPAIRING OF PERFECT GASES AND REAL GASES
Bulletin of Toraighyrov University. Chemistry & Biology series, 2023In brief, we may state that Ideal gases have molecular interactions, with the mass of the molecules receiving more attention. However, the factors are altered by an unusually low temperature and high pressure. The Bayel Maryot rule states that for Ideal gases, the effect of pressure on the bulk at constant temperature has a constant magnitude, hence in
null R. Shirullah, null H. Muhammad
openaire +1 more source
2013
Contents Molecular interactions in gases 321 Brief illustration 36.1: Interactions in gases 321 The virial equation of state 321 Brief illustration 36.2: The virial equation of state 322 The van der Waals equation 323 The ...
Peter Atkins +2 more
openaire +1 more source
Contents Molecular interactions in gases 321 Brief illustration 36.1: Interactions in gases 321 The virial equation of state 321 Brief illustration 36.2: The virial equation of state 322 The van der Waals equation 323 The ...
Peter Atkins +2 more
openaire +1 more source
2016
This chapter investigates the properties of actual gases, so-called ‘real gases’. The deviations from perfect behaviour give insight into the nature of the interactions between molecules. The extent of deviations from perfect behaviour is summarized by introducing the compression factor.
Peter Atkins +2 more
openaire +1 more source
This chapter investigates the properties of actual gases, so-called ‘real gases’. The deviations from perfect behaviour give insight into the nature of the interactions between molecules. The extent of deviations from perfect behaviour is summarized by introducing the compression factor.
Peter Atkins +2 more
openaire +1 more source
1995
Wir haben im Experiment (Fig. 24.2) gesehen, das sich Luft unter Normalbedingungen genahert wie ein ideales Gas verhalt. Ein ideales Gas besteht aus punktformigen Teilchen, die untereinander und mit den Wanden elastisch stosen. Sehen wir vom Einflus der Schwerkraft ab, so ist die Energie der Teilchen nur die kinetische.
Eckard Gerlach, Peter Grosse
openaire +1 more source
Wir haben im Experiment (Fig. 24.2) gesehen, das sich Luft unter Normalbedingungen genahert wie ein ideales Gas verhalt. Ein ideales Gas besteht aus punktformigen Teilchen, die untereinander und mit den Wanden elastisch stosen. Sehen wir vom Einflus der Schwerkraft ab, so ist die Energie der Teilchen nur die kinetische.
Eckard Gerlach, Peter Grosse
openaire +1 more source