MATHEMATICAL MODELING OF FEEDBACK CONTROL OF GRAVITATIONAL WAVES
DOI:
https://doi.org/10.22159/ajpcr.2017.v10s1.19980Keywords:
Gravitation, formulation-theory & mathematical, experimentationAbstract
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We present an analysis for gravitation through space-mass quantization technique where gravitational waves is the fundamental interaction through distinct state of quantization of mass & space while remaining mathematically compatible with general relativity (GR). It also encompasses issues such as the notion of space-radiative expansion leading to order in the large radius expansion, zero point energy & also space-contraction is introduced that sets the physical scales and subleading terms. We discuss conditions under which gravitational waves is transformed locally under space-mass action. A proposal for improving the current use of scientific methods & mechanism to forge a model of gravitational waves is given. We refer this physical interpretation in rest of the text as Quantize field Theoryâ€.
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References
Morton F. Spears, An Electrostatic Solution for the Gravitational waves Force and the Value of G,†January 9, 1997
Ungarish, M., 2010, An Introduction to Gravitational waves Currents and Intrusions, CRC Press, Boca Raton, FL
Chassignet, E., Cenedese, C., and Verron, J., 2012, Buoyancy-Driven Flows, Cambridge University Press, Cambridge, UK
Hopfinger, E. J., 1983, Snow Avalanche Motion and Related Phenomena,†Annu. Rev. Fluid Mech., 15(1), pp. 47–76
Meiburg, E., and Kneller, B., 2010, Turbidity Currents and Their Deposits,†Annu. Rev. Fluid Mech., 42, pp. 135–156
Klaucke, I., Hesse, R., and Ryan, W., 1998, Seismic Stratigraphy of the Northwest Atlantic Mid-Ocean Channel: Growth Pattern of a Mid-Ocean Channel-Levee Complex,†Mar. Pet. Geol., 15(6), pp. 575–585
Curray, J. R., Emmel, F. J., and Moore, D. G., 2002, The Bengal Fan: Morphology, Geometry, Stratigraphy, History and Processes,†Mar. Pet. Geol., 19(10), pp. 1191–1223
Weimer, P., and Slatt, R. M., 2007, Introduction to the Petroleum Geology of Deepwater Settings, AAPG/Datapages, Tulsa, OK
Moncrieff, M. W., 1978, The Dynamical Structure of Two-Dimensional Steady Convection in Constant Vertical Shear,†Q. J. R. Meteorol. Soc., 104(441), pp. 543–567
Maxworthy, T., Leilich, J., Simpson, J. E., and Meiburg, E. H., 2002, The Propagation of a Gravitational waves Current Into a Linearly Stratified Fluid,†J. Fluid Mech., 453, pp. 371–394
Baines, P., 1995, Topographic Effects in Stratified Flows, Cambridge University Press, Cambridge, UK
Rottman, J., and Linden, P., 2001, Gravitational waves Currents,†Environmental Strati- fied Flows, R. Grimshaw, ed., Kluwer Academic, Dordrecht, The Netherlands, pp. 89–117.
https://www.ligo.caltech.edu/video/ligo20160211v4
Rai, Ankush. "Shell implementation of neural net over the UNIX environment for file management: A step towards automated operating system." Journal of Operating Systems Development & Trends 1.2 (2014): 10-14.
Rai, Ankush. "Automation of Community from Cloud Computing." Journal of Advances in Shell Programming 1.1 (2014): 21-23.
Rai, Ankush. "Dynamic data flow based spatial sorting method for GPUs: Software based autonomous parallelization." Recent Trends in Parallel Computing 1.1 (2014): 15-18.
Rai, Ankush. "Dynamic Pagination for Efficient Memory Management Over Distributed Computational Architecture for Swarm Robotics." Journal of Advances in Shell Programming 1.2 (2014): 1-4.
Rai, Ankush, Sakkaravarthi Ramanathan, and R. Jagadeesh Kannan. "Quasi Opportunistic Supercomputing for Geospatial Socially Networked Mobile Devices." Enabling Technologies: Infrastructure for Collaborative Enterprises (WETICE), 2016 IEEE 25th International Conference on. IEEE, 2016.
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