Add to ORKGWe plan a rigorous test of the theory of dynamic scaling by accurately measuring the bulk viscosity of xenon in microgravity 50 times closer to the critical temperature T(sub c) than previous experiments. The bulk viscosity zeta (or "second viscosity" or "dilational viscosity") will be determined by measuring the attenuation length of sound alpha lambda and also measuring the frequency-dependence of the speed of sound. For these measurements, we developed a unique Helmholtz resonator and specialized electro-acoustic transducers. We describe the resonator, the transducers, their performance on Earth, and their expected performance in microgravity
Acoustic levitation permits the observation of individual oscillating liquid droplets. Droplet shape...
The attenuation of the sound energy produced by a liquid contained in a cylindrical tube (wave guide...
Speed of sound measurements are currently of the utmost importance for the development of thermodyna...
We plan to determine the bulk viscosity of xenon 10 times closer [in reduced temperature tau = (T-Tc...
We used a novel, overdamped oscillator aboard the Space Shuttle to measure the viscosity eta of xeno...
In microgravity, the Critical Viscosity Experiment will measure the viscosity of xenon 15 times clos...
Using a novel, overdamped, oscillator flown aboard the Space Shuttle, we measured the viscosity of x...
Viscosity is a fundamental characteristic of liquid and viscoelastic materials. Viscosity measuremen...
In previous years, we have presented several results on viscosity measurements using conventional an...
Why does water flow faster than honey? The short answer, that honey has a greater viscosity, merely ...
We give a new analysis of experimental data showing that the frequency dependence observed in the ab...
The resonant frequency shift, δf, of an acoustic resonator by a small spheroidal obstacle is calcula...
Includes bibliographical references (leaf [57] [1st set])For more than a century, the method of meas...
AbstractMiniaturized resonating viscosity sensors operating at frequencies in the low KHz-range offe...
The bulk viscosity in the critical gas is studyed theoretically using the theory of anomalous transp...
Acoustic levitation permits the observation of individual oscillating liquid droplets. Droplet shape...
The attenuation of the sound energy produced by a liquid contained in a cylindrical tube (wave guide...
Speed of sound measurements are currently of the utmost importance for the development of thermodyna...
We plan to determine the bulk viscosity of xenon 10 times closer [in reduced temperature tau = (T-Tc...
We used a novel, overdamped oscillator aboard the Space Shuttle to measure the viscosity eta of xeno...
In microgravity, the Critical Viscosity Experiment will measure the viscosity of xenon 15 times clos...
Using a novel, overdamped, oscillator flown aboard the Space Shuttle, we measured the viscosity of x...
Viscosity is a fundamental characteristic of liquid and viscoelastic materials. Viscosity measuremen...
In previous years, we have presented several results on viscosity measurements using conventional an...
Why does water flow faster than honey? The short answer, that honey has a greater viscosity, merely ...
We give a new analysis of experimental data showing that the frequency dependence observed in the ab...
The resonant frequency shift, δf, of an acoustic resonator by a small spheroidal obstacle is calcula...
Includes bibliographical references (leaf [57] [1st set])For more than a century, the method of meas...
AbstractMiniaturized resonating viscosity sensors operating at frequencies in the low KHz-range offe...
The bulk viscosity in the critical gas is studyed theoretically using the theory of anomalous transp...
Acoustic levitation permits the observation of individual oscillating liquid droplets. Droplet shape...
The attenuation of the sound energy produced by a liquid contained in a cylindrical tube (wave guide...
Speed of sound measurements are currently of the utmost importance for the development of thermodyna...