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Thermoacoustic Investigation of Intermolucalar Interaction in Binary Solutions using Some Excess Thermoacoustic Parameters and its Theoritical Comparison

Published on October 2012 by Deepak A. Zatale
journal_cover_thumbnail

International Conference on Benchmarks in Engineering Science and Technology 2012
Foundation of Computer Science USA
ICBEST - Number 4
October 2012
Authors: Deepak A. Zatale
a8f75606-14ea-4b8e-9726-c9d21e3874cb

Deepak A. Zatale . Thermoacoustic Investigation of Intermolucalar Interaction in Binary Solutions using Some Excess Thermoacoustic Parameters and its Theoritical Comparison. International Conference on Benchmarks in Engineering Science and Technology 2012. ICBEST, 4 (October 2012), 35-37.

@article{
author = { Deepak A. Zatale },
title = { Thermoacoustic Investigation of Intermolucalar Interaction in Binary Solutions using Some Excess Thermoacoustic Parameters and its Theoritical Comparison },
journal = { International Conference on Benchmarks in Engineering Science and Technology 2012 },
issue_date = { October 2012 },
volume = { ICBEST },
number = { 4 },
month = { October },
year = { 2012 },
issn = 0975-8887,
pages = { 35-37 },
numpages = 3,
url = { /proceedings/icbest/number4/8715-1022/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on Benchmarks in Engineering Science and Technology 2012
%A Deepak A. Zatale
%T Thermoacoustic Investigation of Intermolucalar Interaction in Binary Solutions using Some Excess Thermoacoustic Parameters and its Theoritical Comparison
%J International Conference on Benchmarks in Engineering Science and Technology 2012
%@ 0975-8887
%V ICBEST
%N 4
%P 35-37
%D 2012
%I International Journal of Computer Applications
Abstract

Intermolecular interaction studies using ultrasonic technique in the binary liquid mixtures of Acetone and bromobenzene at different temperatures 318. 15K and 323. 15K. Using the measured values of ultrasonic velocity and density, acoustical parameters and their excess values such as excess adiabatic compressibility ( ), excess molar volume ( ) and excess free length ( ) has been are evaluated. From the properties of these excess parameters the nature and strength of the interactions in these binary systems have been discussed. The experimental ultrasonic velocities has been compared with the calculated values from the acoustic theories such as Free-length theory (FLT), Collision factor theory (CFT) and Nomoto theory (NOM) at temperatures 318. 15K and 323. 15K.

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Index Terms

Computer Science
Information Sciences

Keywords

Ultrasonic Parameters Molecular Interaction And Ultrasonic Theories