Dark Matter: A Result of nonadditive gravitational forces

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Jesús Arturo Robles-Gutiérrez
Ernesto Lacomba Zamora
Jesús Martiniano Arturo Robles-Domínguez
Cinna Lomnitz
María Eugenia Robles-Gutiérrez

Abstract

Experimental data in fluids suggest that nonadditive electromagnetic forces between 3 or more molecules account for the existence of critical points, triple states and phase transitions (Robles-Domínguez et al.,2007; Robles-Gutiérrez et al., 2010). Similar nonadditive forces between 3 or more molecules in the gravitational field incorporated into Newton's universal gravitational law may also explain the existence of dark matter.

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How to Cite
Robles-Gutiérrez, J. A. ., Lacomba Zamora, E. ., Robles-Domínguez, J. M. A. ., Lomnitz, C. ., & Robles-Gutiérrez, M. E. . (2013). Dark Matter: A Result of nonadditive gravitational forces. Geofisica Internacional, 52(2), 153–157. https://doi.org/10.1016/S0016-7169(13)71469-7
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