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Canonical average effective potential for viscosity of Non-polar (SO2), Polar (NH3) and Complex polar water (H2O)
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Jeet Singh,
Pankaj Pathak,
S Singh
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Abstract
[ (4) 2: 892-895] © 2018 IJSRST | Volume 4 | Issue 2 | Print ABSTRACT The canonical average effective potential is very useful to computed the viscosity for non polar sulphur dioxide (SO2), polar ammonia (NH3) and complex polar fluids water (H2O). .The agreement between theoretical and experimental results conform the validity of the canonical average effective potential for the viscosity of non polar sulphur dioxide (SO2), polar ammonia (NH3) and complex polar fluids water(H2O).The collision integral Ω (2,2)* [1]for the viscosity (η) of a single dilute polar gas has been obtained for a central pair potential which is an average of the Stockmayer potential [2] over all orientation of the dipoles. The collision integrals show better agreement with the canonical average effective potential as well as experimental value.
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