An Advanced Study of Ultrasonic Velocity, Density and Compressibility by Using Polar-Nonpolar Binary Liquid Mixtures at 303.15 K

Authors

  • S. L. Patankar Department of Physics, Vasantrao Naik Mahavidyalaya, Aurangabad 431003, India.
  • H. N. Thorat Department of Physics, Dr. Babasaheb Ambedkar Marathawada University, Aurangabad 431004, India.
  • A. G. Patil Department of Physics, Vivekananda College, Aurangabad 431004, India.
  • A. G. Murugkar Department of Physics, Dr. Babasaheb Ambedkar Marathawada University, Aurangabad 431004, India.

DOI:

https://doi.org/10.9734/bpi/nicst/v7/2202E

Keywords:

Ultrasonic velocity, density, compressibility, excess parameters, molecular interaction

Abstract

The ultrasonic velocity (U), density (\(\rho\)) and compressibility (\(\beta\)) of polar-nonpolar binary liquid mixtures of Nitro methane (NM) with Toluene at 303.15 K have been measured and studied. From this data, thermodynamic parameters have been calculated such as excess velocity, excess acoustic impedance and excess adiabatic compressibility. The results have been interpreted in terms of molecular interaction between polar and non-polar binary mixtures. Excess parameters are fitted to obtain standard deviation of the data. Thus from the results obtained, it can be conclude that the polar NM has weak interaction with non-polar toluene. The weaker interaction attributes the de-clustering or rupture of hydrogen bonding via dissociation between the different types of species of the molecules, which is due to occurrence of structure breaking factor.

Published

2021-02-22

How to Cite

S. L. Patankar, H. N. Thorat, A. G. Patil, & A. G. Murugkar. (2021). An Advanced Study of Ultrasonic Velocity, Density and Compressibility by Using Polar-Nonpolar Binary Liquid Mixtures at 303.15 K. New Ideas Concerning Science and Technology Vol. 7, 104–110. https://doi.org/10.9734/bpi/nicst/v7/2202E

Issue

New Ideas Concerning Science and Technology Vol. 7

Section

Chapters