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The atoms sharing the electron pairs will spread out around the central atom.
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What is a consequence of electron-pair repulsing around an atom?
The atoms sharing the electron pairs will spread out around the central atom.
What is a consequence of electron pair repulsion around a atom?
The atoms sharing the electron pairs will spread out around the central atom.
What is the consequence of an electron-pair repulsion around an atom?
the atoms sharing the electron pairs will spread out around the central atom -apex
What is consequence of electron-pair repulsion around an atom?
Repulsion affect the geometry of a molecule.
What is a consequence of electron-pair repulsion around an atom?
The atoms sharing the electron pairs will spread out around the central atom. Apex
What is the consequence of electron-pair repulsion around an atom?
Electron-pair repulsion results in the arrangement of electron pairs around an atom in a way that maximizes the distance between them. This leads to the formation of specific molecular geometries, which in turn influence the shape and properties of the molecule.
What is a consequences of electron pair repulsion around an atom?
The atoms sharing the electron pairs will spread out around the central atom.
What is the electron pair geometry around the central atom of SeF6?
electron pair geometry: octahedral molecular geometry: octahedral
What is the electron pair geometry around the central atom of TEF6?
Octahedral
What is the electron-pair geometry around the Al atom in AlCl3?
tetrahedral
The electron pair geometry of each carbon atom in an alkane is what?
The electron pair geometry of each carbon atom in an alkane is tetrahedral. This is because each carbon atom is bonded to four other atoms, which results in a geometry where the electron pairs are distributed in a tetrahedral arrangement around the carbon atom.
What is the electron pair geometry around Se atom in SeOF2?
In SeOF2, the selenium (Se) atom has four regions of electron density: two bonding pairs with fluorine atoms, one bonding pair with the oxygen atom, and one lone pair. This results in a tetrahedral electron pair geometry. However, the molecular geometry is bent or V-shaped due to the presence of the lone pair, which repels the bonding pairs.
