A Comparative Study of Experimental and Theoretical Ultrasonic Velocity of Binary Liquid Mixtures Using Mathematical Methods

 
 
 
  • Abstract
  • Keywords
  • References
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  • Abstract


    A comparative study of ultrasonic velocities of binary liquid mixtures such as O-cresol+carbon tetrachloride, anisicaldehyde+methylacetate, anisicaldehyde+ethylacetate, having industrial applications are analysed at temperature 303K for different concentrations [0 to 1%]. In the present study experimental values are taken from literature and there values are compared with theoretical values obtained by various mathematical equations such as Nomoto’s relation, VandealVangeal formula, Impedance relation, Rao’s specific relation. Thus, the present study reveals the nature of interaction between component molecules in the mixtures and enables us to identify a suitable mathematical model for predicting the ultrasonic velocity various binary liquid mixtures.

     

     
     

  • Keywords


    Binary liquids; Impedance relation; Nomoto’s relation; Rao Specific relation; Ultrasonic velocity; Vand-deal and Van-Geal.

  • References


      [1] Siddharthan N & Jayakumar S (2015), Experimental and theoretical studies of ultrasonic velocity in binary liquid mixtures of toluene with benzene and carbon tetra chloride. Indian Journal of Science 13, 145–154.

      [2] Sandhya Sri P, Zareena Begum B & Rambabu C (2013), Theoretical evaluation of ultrasonic velocities in binary liquid mixtures of Anisic aldehyde with some Esters at different temperatures using different theories and models. Journal of Thermodynamics and Catalysis 4, 1–8.

      [3] Vadamalar R, Mani D & Balakrishnan R (2011), Ultrasonic study of binary liquid mixtures of Methyl methacrylate with Alcohols. Research Journal of Chemical Sciences 1, 79-82.

      [4] Gayathri A & Venugopal T (2015), Analysis of speed of acoustic waves in binary liquid system through mathematical and experimental methods. Indian Journal of Science 13, 1-4.

      [5] Gayathri A & Venugopal T (2015), A comparative analysis of ultrasound velocity in binary liquid systems of PPG by mathematical and experimental methods. Physics Procedia 70, 241–244.

      [6] Venkatramanan K & Arumugam V (2009), Miscibility studies of blends of PPG and PEG using viscosity technique. AIP Conference Proceedings 1004, 235-240.


 

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Article ID: 21292
 
DOI: 10.14419/ijet.v7i4.10.21292




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