COMPARATIVE STUDY OF BRUGGEMAN FACTORS AS A DIELECTRIC PARAMETERS OF ETHANOL, METHANOL AND PROPANOL WITH DIAZEPAM USING TIME DOMAIN REFLECTOMETRY
Keywords:
Ethanol, Methanol, Propanol, Diazepam, Bruggeman factorAbstract
Objective: The dielectric relaxation study of binary mixture at different concentration and different temperature has been carried out using time domain reflectometry technique in the frequency range of 10MHz to 50MHz.
Materials and Methods: Ethanol, Methanol and Propanol with Diazepam used as a binary mixture for the dielectric relaxation study.
Results: The dielectric parameters have been determined. The Bruggeman model has been fitted to the dielectric data of mixture.
Conclusion: It is concluded that fB shows a small deviation to upper side from the ideal Bruggeman behavior in Ethanol and Propanol and lower side in Methanol with Diazepam binary mixture.
References
1. https://en.wikipedia.org/wiki/diazepam#
2. C. J. F. Bottcher, Theory of electric polarization, Elsevier, Amsterdam, 1952.
3. D.A.G. Bruggeman, Ann. Phys., (Leipzig), 5,636, 1935.
4. U. Kaatze, Zeitschrift fur Physikalischechemieneuefolge, Bd., 153, S141,1987.
5. S. M. Puranik, A. C. Kumbharkhane and S. C. Mehrotra, The Static permittivityof binary mixtures using an improved Bruggeman Model, J. Mol. Liq., 59, 1731994.
6. Puranik S M , Kumbharkhane A C , Mehrotra S C, J. Mol. Liq. 1994;59:173-7
7. Bevington PR. Data reduction and error analysis for the physical sciences. New York; McGraw Hill; 1969.
8. P.B.Undre, S.N.Helambe, S.B. Jagdale, P.W.Khirade and S.C. Mehrotra. Pramana J. Physics. 68. 851 (2007)
9. Manual T.D.R. Tektronix DSA8300
10. C.E.Shannon, Proc. Inst. Radio Eng. 37, 10(1949)
11. H.A. Samulan. Proc. IRE, 39, 175 (1951)
12. S. Mashimo, S. Kuwabara, S. Yogihara, and K. Higasi, J. Chem. Phy. 90, 3292(1989)
13. P.Debye. Polar Molecules, Chemical Catalog. Co. NewYork. (1929)
14. P.R.Bevington. Data Reduction and Error Analysis for the Physical Sciences, McGraw Hill, New York(1969)
15. D. A. G. Bruggemen, ‘The dielectric constant of a composite materials’ Annals of physics vol. 5 p. 636, 1935.
16. P. Jeevananandam et al Dielectric Relaxation Study of 2-Butoxyethanol with Anilin and Substituted Anilines Using Time Domain Reflectometry Advances in physical chemistry volume 2014 Article ID 659531 http://dx.doi.org/10.1155/2014/659531
17. Binary Polar Liquids, Structural and Dynamic Characterization Using Spectroscopic Method. by Suresh Mehrotra, Ashok Kumbharkhane, Ajay Chaudhari 11.2.2 page 443-444.
18. Binary Polar Liquids, Structural and Dynamic Characterization Using Spectroscopic Method. by Suresh Mehrotra, Ashok Kumbharkhane, Ajay Chaudhari 1.5.3 page 443-444.
2. C. J. F. Bottcher, Theory of electric polarization, Elsevier, Amsterdam, 1952.
3. D.A.G. Bruggeman, Ann. Phys., (Leipzig), 5,636, 1935.
4. U. Kaatze, Zeitschrift fur Physikalischechemieneuefolge, Bd., 153, S141,1987.
5. S. M. Puranik, A. C. Kumbharkhane and S. C. Mehrotra, The Static permittivityof binary mixtures using an improved Bruggeman Model, J. Mol. Liq., 59, 1731994.
6. Puranik S M , Kumbharkhane A C , Mehrotra S C, J. Mol. Liq. 1994;59:173-7
7. Bevington PR. Data reduction and error analysis for the physical sciences. New York; McGraw Hill; 1969.
8. P.B.Undre, S.N.Helambe, S.B. Jagdale, P.W.Khirade and S.C. Mehrotra. Pramana J. Physics. 68. 851 (2007)
9. Manual T.D.R. Tektronix DSA8300
10. C.E.Shannon, Proc. Inst. Radio Eng. 37, 10(1949)
11. H.A. Samulan. Proc. IRE, 39, 175 (1951)
12. S. Mashimo, S. Kuwabara, S. Yogihara, and K. Higasi, J. Chem. Phy. 90, 3292(1989)
13. P.Debye. Polar Molecules, Chemical Catalog. Co. NewYork. (1929)
14. P.R.Bevington. Data Reduction and Error Analysis for the Physical Sciences, McGraw Hill, New York(1969)
15. D. A. G. Bruggemen, ‘The dielectric constant of a composite materials’ Annals of physics vol. 5 p. 636, 1935.
16. P. Jeevananandam et al Dielectric Relaxation Study of 2-Butoxyethanol with Anilin and Substituted Anilines Using Time Domain Reflectometry Advances in physical chemistry volume 2014 Article ID 659531 http://dx.doi.org/10.1155/2014/659531
17. Binary Polar Liquids, Structural and Dynamic Characterization Using Spectroscopic Method. by Suresh Mehrotra, Ashok Kumbharkhane, Ajay Chaudhari 11.2.2 page 443-444.
18. Binary Polar Liquids, Structural and Dynamic Characterization Using Spectroscopic Method. by Suresh Mehrotra, Ashok Kumbharkhane, Ajay Chaudhari 1.5.3 page 443-444.
Published
31-05-2020
How to Cite
A.K., D., & S.B., S. (2020). COMPARATIVE STUDY OF BRUGGEMAN FACTORS AS A DIELECTRIC PARAMETERS OF ETHANOL, METHANOL AND PROPANOL WITH DIAZEPAM USING TIME DOMAIN REFLECTOMETRY. Innovare Journal of Sciences, 8(7), 12–14. Retrieved from https://journals.innovareacademics.in/index.php/ijs/article/view/38515
Issue
Section
Articles