Russell J. Donnelly
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The
Observed Properties of Liquid Helium
at the Saturated Vapor
Pressure
CNomenclature
Symbol or expression |
Physical quantity |
Unit symbol or value |
| m | 4He mass | 6.646 x10-24 g |
| k | Boltzmann’s constant | 1.389658x10-23J/K |
| hi(h) | Planck’s
constant,  |
6.6260755x10-34J•s (1.05457266x10-34J•s) |
| P | Pressure | 1.01325x105Pascal |
| V | Molar volume | cm3/mole |
| T | Temperature | |
| PVT | Pressure-Volume-Temperature, the equation of state | |
| SVP | Saturated vapor pressure | |
T (P) |
The temperature at which liquid helium-4 becomes a superfluid for a given pressure | k |
| helium
I (He I) |
The
non-superfluid state of liquid helium-4, T > T |
|
| helium
II (He II) |
The
superfluid state of liquid helium-4, T < T |
|
| P | Density | g•cm•s-3 |
| Pu | Density of the normal component | g•cm•s-3 |
| Ps | Density of the superfluid component | g•cm•s-3 |
 /k |
Energy
of an excitation  k |
k |
| w=/h |
Frequency of an excitation | rad.s-1 |
| p | Excitation momentum | |
| q=p/h | Wave number of excitation | Å-1(1Å-1=1010m-1) |
| p0 | Momentum at the roton minimum | g•cm•s-1 |
| pc | Momentum
at which d/dp=h |
g•cm•s-1 |
| n(p) | Distribution of excitations as a function of momentum | cm-3 |
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