An environmental impact of ultrasonic studies on molecular interaction and pysico-chemical behaviour of cobalt chloride in aqueous propan - 2 - ol as solvent at 303∙ 15k

Puspita Acharya; U.N. Dash

Year: 2020
Volume: 7
Issue: 4

An environmental impact of ultrasonic studies on molecular interaction and pysico-chemical behaviour of cobalt chloride in aqueous propan - 2 - ol as solvent at 303∙ 15k

Author:
Puspita Acharya¹, U.N. Dash^2,
Total Page Count: 6
Page Number: 131 to 136

¹Assistant Professor, Dept. of Chemistry, Einstein Academy of Technology & Management, Bhubaneswar, Affiliated to BPUT, Rourkela, Odisha and Approved by AICTE, Govt. of India, New Delhi, India

²Scholar, P.G. Dept. Of Chemistry, Udayanath College of Science & Technology, Odisha, India

*Corresponding Author: e-mail:undas@gmail.com

Online published on 20 March, 2021.

Abstract

Different acoustic measurements such as isentropic compressibility (βs), intermolecular free length (Lf), CoCl2 acoustic impedance (Z), apparent molar compressibility (φk), apparent molar volume (φ), molar compressibility (W), molar sound velocity (R) were calculated from ultrasonic velocity (u), density (y) and relative impedance (Z) of CoCl2 at 10 percent, 20 percent and 30 percent Propan -2- ol+ water at 303 ∙ 15K. Both measurements are related to the solution’s molar concentration and represent the degradation of the solvent’s composition (i.e. propane-2-ol + water) as the solution is applied to it.

Keywords

Apparent Molar Volume (AMV), Viscosity Coefficient (VC), Ultrasonic Velocity (UV), Isentropic Compressibility (IC), Acoustic Impedance (AI)

An environmental impact of ultrasonic studies on molecular interaction and pysico-chemical behaviour of cobalt chloride in aqueous propan - 2 - ol as solvent at 303∙ 15k

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