Thermodynamic Surfaces - GIBBS original work and MAXWELL's contribution
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Formale Metadaten
| Titel |
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| Serientitel | ||
| Anzahl der Teile | 34 | |
| Autor | 0000-0002-4319-5413 (ORCID) | |
| Mitwirkende | ||
| Lizenz | CC-Namensnennung - keine kommerzielle Nutzung 3.0 Deutschland: Sie dürfen das Werk bzw. den Inhalt zu jedem legalen und nicht-kommerziellen Zweck nutzen, verändern und in unveränderter oder veränderter Form vervielfältigen, verbreiten und öffentlich zugänglich machen, sofern Sie den Namen des Autors/Rechteinhabers in der von ihm festgelegten Weise nennen. | |
| Identifikatoren | 10.5446/34682 (DOI) | |
| Herausgeber | 0000-0002-4319-5413 (ORCID) | |
| Erscheinungsjahr | ||
| Sprache |
Physical Chemistry6 / 34
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FluidisierenHerzfrequenzvariabilitätTonmineralFettsäuremethylesterWasserMultiproteinkomplexTiermodellSystemische Therapie <Pharmakologie>OberflächenchemieKohlendioxidPhasengleichgewichtDruckabhängigkeitBlauschimmelkäseAktionspotenzialKörpertemperaturChemische EigenschaftQuerprofilUmwandlungstemperaturFunktionelle GruppePotenz <Homöopathie>MolekulardynamikZunderbeständigkeitFormaldehydWursthülleTieftemperaturtechnikGesundheitsstörungStoffwechselwegExplosionBesprechung/Interview
Transkript: Englisch
00:01
hello dear friends of science in 18 73 and usually that its population in the 1st world on power graphical methods in the government makes all it in which he uses to call entropy and want him to represent this
00:22
state offices in his follow-up as a matter of geometrical representation of the dynamic properties of substances by means of surfaces published later in the year is and if the coordinates volume and namely the system's
00:43
energy he correlate these variables verbally and with equations only using very few people furthermore in did not only used on common creatures that ball state variables
01:01
like the term for and to be he also used two-dimensional images for three-dimensional discussion in these now famous papers this is to use the concept of available energy they later named after him he's energy with this
01:23
new concept he was able to energetically describe it really real in particular it made me up on my face Hewitt to the complexity of this representation it received little attention was Burke at power
01:43
but with James Clerk Maxwell's wrecked his work in the UK he immediately saw all the potential all you know in fact Maxwell was so fascinated by the human role that he spends
02:01
about that amount from November 18 easily Portage in our case served by I can relate the energy entropy 1 up all and there's a 3-D collating model he makes role that the path of services and sent 1 of them as a
02:22
token officers need to do it to date it has this report to pass knack will sort of popular so this culture represents the very big conditions back me thought all the water that substance
02:41
in answer the EC was the wine and energy he call so we distinguish single value in areas that they will the greenback will with a critical point which he finds
03:01
the boundaries of the movie in its area but 2 phase regions the group gas and a triangle which of the state because systems of Catholic and so on on the surface of his Ismael next in great lines of constant pressure and
03:21
you and constant temperature in wrecked as calculated according to the 1st and 2nd law these lines correspond to lines of constant slope in the bot be direction state services of pure substances can be used
03:40
with any here area so great all popular out of the problem and humanity get so this is the pressure volume temperature that in 18 71 the Scottish engineer James Thom yeah the brother of a lot of this exercise is based on data for compact and formalize
04:05
have actually be of this then the model not to scale was in pressure temperature again with the the the the the regions with the revival which
04:23
is a critical point and in reply and for what