<P> Valence shell electron pair repulsion (VSEPR) theory is a model used in chemistry to predict the geometry of individual molecules from the number of electron pairs surrounding their central atoms . It is also named the Gillespie - Nyholm theory after its two main developers . The acronym "VSEPR" is pronounced either "ves - pur" or "vuh - seh - per". </P> <P> The premise of VSEPR is that the valence electron pairs surrounding an atom tend to repel each other and will, therefore, adopt an arrangement that minimizes this repulsion, thus determining the molecule's geometry . Gillespie has emphasized that the electron - electron repulsion due to the Pauli exclusion principle is more important in determining molecular geometry than the electrostatic repulsion . </P> <P> VSEPR theory is based on observable electron density rather than mathematical wave functions and hence unrelated to orbital hybridisation, although both address molecular shape . While it is mainly qualitative, VSEPR has a quantitative basis in quantum chemical topology (QCT) methods such as the electron localization function and the quantum theory of atoms in molecules (QTAIM). </P> <P> The idea of a correlation between molecular geometry and number of valence electrons (both shared and unshared) was originally proposed in 1939 by Ryutaro Tsuchida in Japan, and was independently presented in a Bakerian Lecture in 1940 by Nevil Sidgwick and Herbert Powell of the University of Oxford . In 1957, Ronald Gillespie and Ronald Sydney Nyholm of University College London refined this concept into a more detailed theory, capable of choosing between various alternative geometries . </P>

Valence-shell electron-pair repulsion (vsepr) theory is based on which of the following concepts
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