Effect of Electric Field on Viscosity and Excess Viscosity of Three Liquid Mixtures

P. Seshu Mani

doi:https://doi.org/10.14445/23488379/IJEEE-V4I7P102

Research Article | Open Access

Volume 4 | Issue 7 | Year 2017 | Article Id. IJEEE-V4I7P102 | DOI : https://doi.org/10.14445/23488379/IJEEE-V4I7P102

Effect of Electric Field on Viscosity and Excess Viscosity of Three Liquid Mixtures

P. Seshu Mani, Prof. S. Vijaya Bhaskara Rao

Citation :

P. Seshu Mani, Prof. S. Vijaya Bhaskara Rao, "Effect of Electric Field on Viscosity and Excess Viscosity of Three Liquid Mixtures," International Journal of Electrical and Electronics Engineering, vol. 4, no. 7, pp. 4-9, 2017. Crossref, https://doi.org/10.14445/23488379/IJEEE-V4I7P102

Abstract

Electric Field of 230 V is applied between two fudicial marks of Ostwald Capillary Viscometer measure flow time , calculate Viscosity and Excess viscosity of three liquid mixtures Benzene + Acetone, Nitrobenzene + Benzene and Nitrobenzene + Acetone at 23 Degree Centigrade. The graphs drawn between Mole fraction versus Viscosity and Mole Fraction versus Excess Viscosity are studied. Using this data interaction between molecules is studied.

Keywords

Using this data interaction between molecules is studied.

References

1. Herzog, Kudur and Paersch, Naturwise 36, 662 ( 1933 ).
2. Herzog, Kudur and Paersch, Physik, Zeits, 35, 446 ( 1934 )
3. Alcock E. D., J. Appl. Phys. 7, 126 ( 1936 ).
4. Electrorheological fluid, from Wikipedia, the free encyclopedia.
5. SiddharthGadkari and RichishThaokar, International J. of Chemical, Molecular, Nuclear, Materials and Metallurgical Engineering, 6(6), 516-521 (2012 ).
6. Andrade, E. N. da C., and Dodd, c., The Royal Society Collaborating with JSTOR , Proceedings of London, Series a, Mathematical and Physical Sciences ( 1945 ).
7. Andrade, E. N. da C., Phil. Mag., 17, 497, 698 ( 1934 ).
8. Andrade, E. N. da C., Proc. Phys. Soc., Lond., 52, 748 ( 1940 ).
9. Andrade, E. N. da C., and Dodd, C., Nature, 143, 26 ( 1939a ).
10. Andrade, E. N. da C., and Dodd, C., Nature, 144, 117 ( 1939b ).
11. Bjornstahl, Y., and Snellman, O., Physics, 6, 257 ( 1935 ).
12. Dobinski, S., Phys. Z., 36, 509 ( 1935 ).
13. Duff, W., phys. Rev., 4, 23 ( 1896 ).
14. Ereolini, G., NuovoCim., 5, 249 ( 1903 ).
15. Eyring, H., J. Chem. Phys., 4, 283 ( 1936 ).
16. Herzog, R. O., Kudar, H., and Paersch, E., Naturwissenschaften, 21, 662 ( 1933 ).
17. Herzog, R. O., Kudar, H., and Paersch, E., Phys. Z., 35,446 ( 1934 ).
18. Jffe, G., Ann. Phys., Lpz., 25 , 257 ( 1908 ).
19. Jffe, G., Ann. Phys., Lpz., 32, 148 ( 1910).
20. Kimura, O., Bull. Chem. Soc.Japan., 12, 147 (1937 ).
21. Konig, W., Ann. Phys., Lpz., 25,618 ( 1885 ).
22. Pacher, G., and Finazzi, L., NuovoCim., 11, 290 ( 1900 ).
23. Pochettino, A., R. C. Accad. Lincei, 12, II, 363 9 1903 ).
24. Quineke, G., Ann. Phys., Lpz., 62, 1 ( 1897 ).
25. Schweidler, E. Von., Anne. Phys., Lpz., 4, 307 ( 1901a ).
26. Fort, R. J., and Moore, W. R., Trans Faraday Society, 62, 1112 ( 1996 ).
27. Liler, and Kosanovic, Hydrogen Bonding ed. Hadzi, Pergamon Press, London ( 1959 ).