Computation of Ultrasonic Speed in Binary Liquid Mixture of Acetone and Carbon tetrachloride using Empirical Theories at Different Temperatures
Experimental ultrasonic velocities of binary liquid mixture of acetone and carbon tetra chloride at temperatures 286.15 K, 289.15 K and 293.15 have been evaluatedat 2 MHz as a function of molar concentrations. The experimental values were compared with various theories for analysis of ultrasonic velocity in binary liquid mixtures such as Nomoto theory (NOM), ideal mixing relation (IMR) of Van Dael andVangeel, Impedance Relation (IDR), Rao’s Specific Velocity Method (Rao) and Junjie’s relations (JR). Chi-square test and average percentage error were applied to investigate the relative applicability of these theories to the present systems. The variation of thermo acoustical parameters of the systems with the mole fraction has been discussed in term of molecular interactions.
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V. Singh; A. K. Singh; M. B. Kalhans, "Computation of Ultrasonic Speed in Binary Liquid Mixture of Acetone and Carbon tetrachloride using Empirical Theories at Different Temperatures", Journal of Ultra Scientist of Physical Sciences, Volume 36, Issue 1, Page Number 1-8, 2024Copy the following to cite this URL:
V. Singh; A. K. Singh; M. B. Kalhans, "Computation of Ultrasonic Speed in Binary Liquid Mixture of Acetone and Carbon tetrachloride using Empirical Theories at Different Temperatures", Journal of Ultra Scientist of Physical Sciences, Volume 36, Issue 1, Page Number 1-8, 2024Available from: http://ultraphysicalsciences.org/paper/1538/
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