Mixing of relativistic ideal gases with relative relativistic velocities

2^nd International Conference on Astrophysics and Particle Physics

November 13-15, 2017 San Antonio, USA

R E Gonzalez-Narvaez

ESFM IPN, Mexico

Scientific Tracks Abstracts: J Astrophys Aerospace Technol

Abstract :

Statement of the Problem: The Redefined Relativistic Thermodynamics is tested by means of mixing two ideal gases at different temperatures and distinct velocities. Methodology & Theoretical Orientation: The conservation of the 4-vector energy�momentum is used to obtain the final temperature and the final velocity of the ideal gas mixture. Findings: The conservation of the 4-vector energy�momentum leads to a tremendous increment of the temperature. Conclusion & Significance: This phenomenon can be used in order to describe the heating of a cold clump with shocked jets material. A prediction for improving the ignition of a Tokamak is proposed. The compatibility of the Redefined Relativistic Thermodynamics with the thermodynamical field theory is analyzed.

Biography :

R E Gonzalez-Narvaez works on Redefined Relativistic Thermodynamics (RRT) (Ares de Parga et. al.). She has studied the relativistic effects on thermodynamic systems. She has worked on the importance of setting normal time-like 4- vector in two reference frames, namely, the rest frame and the lab frame because this choice is crucial in transformation law. Moreover, with Ares de Parga et. al., he demonstrated that 4-momentum of a system is a well-defined vector if there is no interaction within it.