Journal of Pure and Applied Ultrasonics

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Study of Lennard Jones Potential Repulsive Term Exponent, Relative Association and Interaction Parameter in Binary Liquid Mixture at Different Frequencies


Affiliations
1 Department of Physics, Lokanath College, Korua, Patkura, Kendrapara-754134, India
2 Department of Physics, Ravenshaw University, Cuttack-753003, India
 

The study of molecular interaction in organic liquid mixture plays an important role in the development of molecular science. The present investigation deals with the study of Lennard Jones potential repulsive term exponent, relative association and interaction parameter to explain molecular interaction in binary liquid mixture of an aprotic liquid dimethyl acetamide (DMAC) with isobutyl methyl ketone at different frequencies and at constant temperature 308K.The study of DMAC is important because of its utilization in industry and pharmaceuticals. Ultrasonic velocity (U) and density (ρ) of the binary liquid mixture at different frequencies 2 MHz, 4 MHz, 6 MHz and 8MHz have been measured at temperature 308 K. Lennard Jones potential repulsive term exponent (n) relative association (RA) and interaction parameter (χ) have been calculated for the entire range of mole fraction and are interpreted to explain molecular interaction occurring in the liquid mixture.

Keywords

Binary Mixture, Ultrasonic Velocity, Mole Fraction, Relative Association, Interaction Parameter.
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  • Study of Lennard Jones Potential Repulsive Term Exponent, Relative Association and Interaction Parameter in Binary Liquid Mixture at Different Frequencies

Abstract Views: 257  |  PDF Views: 3

Authors

Ashok Kumar Dash
Department of Physics, Lokanath College, Korua, Patkura, Kendrapara-754134, India
Rita Paikaray
Department of Physics, Ravenshaw University, Cuttack-753003, India

Abstract


The study of molecular interaction in organic liquid mixture plays an important role in the development of molecular science. The present investigation deals with the study of Lennard Jones potential repulsive term exponent, relative association and interaction parameter to explain molecular interaction in binary liquid mixture of an aprotic liquid dimethyl acetamide (DMAC) with isobutyl methyl ketone at different frequencies and at constant temperature 308K.The study of DMAC is important because of its utilization in industry and pharmaceuticals. Ultrasonic velocity (U) and density (ρ) of the binary liquid mixture at different frequencies 2 MHz, 4 MHz, 6 MHz and 8MHz have been measured at temperature 308 K. Lennard Jones potential repulsive term exponent (n) relative association (RA) and interaction parameter (χ) have been calculated for the entire range of mole fraction and are interpreted to explain molecular interaction occurring in the liquid mixture.

Keywords


Binary Mixture, Ultrasonic Velocity, Mole Fraction, Relative Association, Interaction Parameter.