Bruce E. Gammon scite author profile

The velocity of sound was determined in helium on 14 equally spaced isotherms from −175 to 150 °C and at pressures from 10 to 150 atm. The results were correlated with an abbreviated perturbation equation of state which employs both the Lennard-Jones (n,6) and the exponential repulsion potentials. Six parameters in the equation of state were adjusted to fit the velocity data within the experimental precision of about 0.001%. The derived results reliably predict literature (P,V,T) values and other velocity-of-sound data for pressures as high as 7000 atm and for temperatures from −223 to 577 °C. A value of the gas constant was derived, R=8314.79±0.35 J K−1⋅kmol−1, which is statistically consistent with the accepted value. The results also support a recent gas thermometry result that indicates the 1968 temperature scale may be in error by 0.012 K at −183 °C.

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Condensed-phase heat-capacity studies and derived thermodynamic properties for six cyclic nitrogen compounds

Messerly

Todd

Finke

et al. 1988

The Journal of Chemical Thermodynamics

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High-temperature enthalpy and critical property measurements using a differential scanning calorimeter

Knipmeyer

Archer

Chirico

et al. 1989

Fluid Phase Equilibria

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Bruce E. Gammon

The thermodynamic properties of quinoline and isoquinoline

The thermodynamic properties of dibenzofuran

The velocity of sound with derived state properties in helium at −175 to 150 °C with pressure to 150 atm

Condensed-phase heat-capacity studies and derived thermodynamic properties for six cyclic nitrogen compounds

High-temperature enthalpy and critical property measurements using a differential scanning calorimeter

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