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A Study of Thermoacoustic Characteristics in Streptomycin Aqueous Solutions at Variable Temperatures

Rathi R.*

Department of Physics, PSN Engineering College, Tirunelveli, Tamil Nadu, India.

Periodicity:May - August'2023

Abstract

This paper investigates the thermoacoustic properties of Streptomycin sodium solutions at various concentrations and temperatures. Ultrasonic velocity measurements were employed to examine the physicochemical behavior of the antibiotic in aqueous solutions. The study focuses on understanding molecular interactions by analyzing parameters such as adiabatic compressibility (β_a), intermolecular free length (L_f), acoustic impedance (Z), and relative association. The experimental data, obtained using an Ultrasonic Interferometer, was collected at frequencies of 2 MHz and temperatures ranging from 298.13 K to 308.13 K. The results reveal that ultrasonic velocity decreases with increasing concentration but increases with temperature, indicating strong solute-solvent interactions. Adiabatic compressibility increases with concentration but decreases with temperature, suggesting hydrogen bonding formation. Intermolecular free length supports the conclusion that Streptomycin acts as a structure maker. The findings contribute to the understanding of molecular interactions in Streptomycin solutions and provide valuable insights for pharmaceutical and medical applications.

Keywords

Molecular Interactions, Streptomycin Sodium, Acoustic Impedance, Adiabatic Compressibility, Intermolecular Free Length, Relative Association.

How to Cite this Article?

Rathi, R. (2023). A Study of Thermoacoustic Characteristics in Streptomycin Aqueous Solutions at Variable Temperatures. i-manager’s Journal on Physical Sciences, 2(2), 26-31.

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A Study of Thermoacoustic Characteristics in Streptomycin Aqueous Solutions at Variable Temperatures

Abstract

Keywords

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