Add to ORKGA proposed experimental program to look at a series of vapor transport properties measured along solid and liquid surfaces is described. The research objectives proposed are: (1) with accuracy otherwise unobtainable on ground, to determine the coefficient of slip measured between gases and the surfaces of liquids and solids; (2) for the first time, to classify and tabulate dominant surface effects found for a variety of solids, particularly those crystalized by vapor transport; and (3) to extend understanding of settling rates predicted for cosmic dust and condensed vapor falling through planetary atmospheres. The method used to obtain these objectives, has aided, to an order of magnitude, understanding of various liquid-gas interfaces such...
A method was devised and calculations were performed to determine the effects of reflected molecules...
In this article we describe the design and construction of a laboratory astrophysics experiment that...
Numerical results of computer calculations on gas molecular interactions with solid surface
In microgravity materials growth (i.e., crystal growth via vapor deposition) experiments, it is of i...
International audienceArticles you may be interested in A slip model for rarefied gas flows above a ...
Momentum transfer and spatial distribution of gas molecules reflected from solid surfaces, for satel...
.Small particles suspended in non-isothermal gas and/or in an isothermal gas mixture with concentrat...
Law of fall of a small spherical body through a gas at any pressure.—(1) Theoretical derivation. Whe...
Feasibility of conducting gas-solid surface interaction experiments on earth satellit
Multicomponent gas diffusion is reviewed with particular emphasis on gas flows near solid boundaries...
The physical phenomena associated with the behavior of liquid samples freely suspended in low gravit...
The primary reason for conducting many materials science experiments in space is to minimize or elim...
Thermodiffusion (also called Ludwig-Soret effect) describes the diffusive motion of molecules due to...
Three dimensional model for gas interactions with metal surfaces at satellite velocitie
The objective is to understand how surfaces outgas and how outgassed substances subsequently condens...
A method was devised and calculations were performed to determine the effects of reflected molecules...
In this article we describe the design and construction of a laboratory astrophysics experiment that...
Numerical results of computer calculations on gas molecular interactions with solid surface
In microgravity materials growth (i.e., crystal growth via vapor deposition) experiments, it is of i...
International audienceArticles you may be interested in A slip model for rarefied gas flows above a ...
Momentum transfer and spatial distribution of gas molecules reflected from solid surfaces, for satel...
.Small particles suspended in non-isothermal gas and/or in an isothermal gas mixture with concentrat...
Law of fall of a small spherical body through a gas at any pressure.—(1) Theoretical derivation. Whe...
Feasibility of conducting gas-solid surface interaction experiments on earth satellit
Multicomponent gas diffusion is reviewed with particular emphasis on gas flows near solid boundaries...
The physical phenomena associated with the behavior of liquid samples freely suspended in low gravit...
The primary reason for conducting many materials science experiments in space is to minimize or elim...
Thermodiffusion (also called Ludwig-Soret effect) describes the diffusive motion of molecules due to...
Three dimensional model for gas interactions with metal surfaces at satellite velocitie
The objective is to understand how surfaces outgas and how outgassed substances subsequently condens...
A method was devised and calculations were performed to determine the effects of reflected molecules...
In this article we describe the design and construction of a laboratory astrophysics experiment that...
Numerical results of computer calculations on gas molecular interactions with solid surface