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Nonextensive Electrical and Thermostatistical Parametric Dependency on Temperature and Tsallis Factor by the Formulation of Q-Exponential Integrals | OMICS International | Abstract
ISSN: 2090-0902

Journal of Physical Mathematics
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Research Article

Nonextensive Electrical and Thermostatistical Parametric Dependency on Temperature and Tsallis Factor by the Formulation of Q-Exponential Integrals

Banerjee Avinab*

Department of Physics, Birla Institute of Technology, Mesra, India

*Corresponding Author:
Banerjee Avinab
Researcher, Department of Physics
Birla Institute of Technology
Mesra, India
Tel: 919855678465
E-mail: [email protected]

Received Date: July 03, 2017; Accepted Date: August 30, 2017; Published Date: September 04, 2017

Citation: Banerjee Avinab (2017) Nonextensive Electrical and Thermostatistical Parametric Dependency on Temperature and Tsallis Factor by the Formulation of Q-Exponential Integrals. J Phys Math 8: 244. doi: 10.4172/2090-0902.1000244

Copyright: © 2017 Banerjee Avinab. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Abstract

The paper emphasizes an approach to solve complex q-exponential integrals by an implication of Binomial expansion along with some specific conditions on the integral limits and sets a relation between the limits which were used such as the maximum energy of the electrons and the chemical potential. The integral results which yielded the average energy and the effective electron concentration which proved out to be essential in order to calculate the average velocity of the electrons and the electrical conductivity of a metallic wire while taking consideration of the Drude’s model. The dependency on temperature of these parameters with the variation of Tsallis factor renders anomalous results depicting the Nonextensive Critical Temperature value to be 20 K and its importance has been mentioned in this paper along with the dependency of these parameters on certain regions consisting of Tsallis factor which follows subextensivity and superextensivity and infers a point known to be as Maximum Entropy Limiting Factor.

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