Physics as Final Opportunity to Prevent Harms Related to Theatricalization of Meteorology

Mbane Biouele  César

doi:10.4236/acs.2014.41015

Mbane Biouele César

Abstract: Using Mbane Biouele formula derived in 2009 on the troposphere thermoelastic properties leads to thermal and kinematic profiles of major atmospheric disturbances which clearly indicate that these terrible events for men should not be viewed with fatalism. This unexpected truth is unfortunately always obscured by media outlets of brilliant TV presenters or famous workshops panelists that focus attention on the excessively sensational meteorology (unfortunately folk and pernicious) instead of worrying about the seriousness that should characterize all interventions on the climate study or prediction. Good weather conditions, it is undeniable, facilitate an excellent running of almost all human activities like sports, transport, agricultural activities, celebrations of events, etc.... Far more serious, the advent of supercomputers and satellites could, if their valuable information is used solely for the theatricalization of weather events, trigger the decline of the scientific discipline of great public utility that is meteorology. Indeed, many meteorologists acquire very big head when they succeed in acquiring advanced equipment. Without prejudging what meteorology will become in the future, we hope that the work done in this article will remind each researchers that much remains to be done to promote climate studies. We remind quite emphatically that both hurricanes and cyclones have their weak-points (or talon d’Achilles in French) and thus, researchers should begin to think about “how to neutralize atmospheric disturbances that have both a large and a strong destructive power”.

Keywords: Mbane Biouele Formula Derived in 2009; Kinematic Profiles of Major Atmospheric Disturbances; Theatricalization of Meteorology; Cyclones Have Their Weak-Points or “Talon d’Achilles”

Cite this paper: M. César, "Physics as Final Opportunity to Prevent Harms Related to Theatricalization of Meteorology," Atmospheric and Climate Sciences, Vol. 4 No. 1, 2014, pp. 131-136. doi: 10.4236/acs.2014.41015.

References

[1] B. Couanang Siebatcheu, C. Mbane Biouele and J. S. Eyebe Fouda, “Atmosphere Dynamic Balance Model (ADB-Model) and Related Troposphere General Circulations’ Cells behind the Formation of Tropical Monsoons,” Scholars Research Library—Archives of Physics Research, Vol. 3, No. 2, 2012, pp. 93-100.

[2] C. Mbane Biouele, “Hurricanes and Cyclones Kinematics and Thermodynamics Based on Clausius-Clapeyron Relation Derived in 1832,” International Journal of Physical Sciences, Vol. 8, No. 23, 2013, pp. 1284-1290.

[3] C. Mbane Biouele, E. Yizengaw, M. B. Moldwin and G. Cautenet, “Impacts of Thermoelastic Properties of Saturated Water Vapor on Tropical Depressions Thermodynamics and Dynamics,” Scholars Research Library—Archives of Physics Research, Vol. 2, No. 4, 2011, pp. 24-33.

[4] C. Mbane Biouele, “Vertical Profiles of Winds and Electric Fields Triggered by Tropical Storms-Under the Hydrodynamic Concept of Air Particle”, International Journal of Physical Sciences, Vol. 4, No. 4, 2009, pp. 242-246.

[5] C. Mbane Biouele, “Physics of Atmosphere Dynamic or Electric Balance Processes Such as Thunderclouds and Related Lighting Flashes,” Geosciences, Vol. 2, No. 1, 2012, pp. 6-10.

[6] H. R. Byers, “General Meteorology,” McGraw-Hill Book Company, INC., 1959, 540 p.

[7] G. K. Batchelor, “An Introduction to Fluid Dynamics,” Cambridge University Press, 1967, 496 p.

[8] C. A. Riegel, “Fundamentals of Atmospheric Dynamics and Thermodynamics,” World Scientific Publishing Co. Pte. Ltd., 1992, 512 p.

[9] C. Mbane Biouele, “Application of Clausius-Clapeyron Relation (1832) and Carnot Principle (1824) to Earth’s Atmosphere Tricellular Circulation,” Atmospheric and Climate Sciences, Vol. 4, No. 1, 2014, pp. 1-6.