Open Access Open Access  Restricted Access Subscription Access

Study of Thermodynamic Properties in Binary Liquid Mixtures through Ultrasonic Measurement


Affiliations
1 Department of Physics, Kamaraj College, Thoothukudi-628003, India
 

To understand the intermolecular interactions in organic liquids and liquid mixtures, the study of ultrasonic and thermodynamic parameters are of due importance. Ultrasonic velocity, density and viscosity have been measured experimentally in the two binary mixtures of ethanol and isopropyl alcohol with benzene at different temperature over the entire composition range. The thermodynamic and other allied parameters like free length, internal pressure, enthalpy etc., have been computed and the variation of the excess parameters like excess free volume, excess internal pressure, excess enthalpy, etc., is analyzed in the light of intermolecular interactions in the mixtures. The variation of these parameters as a function of solvent composition has been discussed from the view point of intermolecular interactions present between the unlike molecules. In both the mixtures intermolecular interactions between the constituent molecules are suggested.

Keywords

Ultrasonic Velocity, Free Volume, Internal Pressure, Molecular Interactions.
User
Notifications
Font Size

  • Padmasree C., Naidu P.S. and Prasad K.R., Ultrasonic behaviour of n-butanol in methyl aceto actetate and ethyl chloro propionate, J. Pure Appl. Ultrason., 17 (1995) 28-32.
  • Natarajan S. and Pillai S.O., Free Volume of Sodium chloride solutions in water dimethyl formaides: mixtures from ultrasonic velocity, J. Acoust. Soc. Ind., 7 (1979) 75-79.
  • Chandramouli J., Choudary N.V. and Naidu P.R., Thermodynamic properties of binary liquid mixtures involving weak interactions Part 1. Excess volume of binary mixtures of 1-cholrobutane with normal alkanols at 303.15K, Indian J. Pure Appl. Phys., 20 (1982) 755-760.
  • Sivaprasad T. and Venkateswarlu, Ultrasonic studies in binary mixtures of butoxy ethyl at 303.15 K temperatures, Acoust. Lett., 18 (1994) 5-10.
  • Nagendran S., Poongodi J., Thenappan T. and Sabesan R., Pseudo-Gruneiser parameters for liquids, Indian J. Pure Appl. Phys., 13 (1991) 3-6.
  • Nath J. and Dixit A.P., Ultrasonic velocities and adiabatic compressibilities for binary liquid mixtures of acetone with benzene, toluene, p-xylene and mesitylene at 308K, J. Chem. Eng. Data, 29 (1984) 320-324.
  • Veerbhadriah D., Rajagopal E. and Manohara N., Excess thermodynamic fluctuation parameters of binary mixtures of benzene, cyclohexane and CCl4 at 198.15K, J. Pure Appl. Ultrason., 19 (1997) 57-63.
  • Pandey J.D., Shukla A.K., Tripathi N. and Dubey G.P., Internal pressure, ultrasonic velocity and viscosity of multi-component system, Pramana., 40 (1993) 81-83.
  • Naidu P.S., Prabhakararao N. and Prasad K.R., Ultrasonic study and excess thermodynamic parameters of the binary mixtures of 3 methoxy acetophenone and 4 chloroacetophenone containing dimethyl sulphoxide as common component, J. Pure Appl. Ultrason., 24 (2002) 36-39.

Abstract Views: 292

PDF Views: 0




  • Study of Thermodynamic Properties in Binary Liquid Mixtures through Ultrasonic Measurement

Abstract Views: 292  |  PDF Views: 0

Authors

A. Mathana Gopal
Department of Physics, Kamaraj College, Thoothukudi-628003, India
J. Poongodi
Department of Physics, Kamaraj College, Thoothukudi-628003, India

Abstract


To understand the intermolecular interactions in organic liquids and liquid mixtures, the study of ultrasonic and thermodynamic parameters are of due importance. Ultrasonic velocity, density and viscosity have been measured experimentally in the two binary mixtures of ethanol and isopropyl alcohol with benzene at different temperature over the entire composition range. The thermodynamic and other allied parameters like free length, internal pressure, enthalpy etc., have been computed and the variation of the excess parameters like excess free volume, excess internal pressure, excess enthalpy, etc., is analyzed in the light of intermolecular interactions in the mixtures. The variation of these parameters as a function of solvent composition has been discussed from the view point of intermolecular interactions present between the unlike molecules. In both the mixtures intermolecular interactions between the constituent molecules are suggested.

Keywords


Ultrasonic Velocity, Free Volume, Internal Pressure, Molecular Interactions.

References