Two bonding pairs around a central atom results in a
Answers
Two bonding pairs around a central atom results in a linear geometry.
Answer:
A trigonal planar molecule
Explanation:
A trigonal planar molecule calls for that there aren't anyt any lone pairs disrupting the molecule's symmetry. This guarantees that every one 3 atoms lie at the identical plane.
An instance of this configuration is the Carbonate ion ( co₂ ⁻³ )
In order to abide through the octet rule, because of this there can be unmarried bonds and one double bond at the relevant atom. Here's the Lewis shape drawing of a carbonate ion as an instance.
The electron pair being shared through the atoms is known as a bonding pair ; the opposite 3 pairs of electrons on every chlorine atom are known as lone pairs. Lone pairs aren't worried in covalent bonding. If each electrons in a covalent bond come from the identical atom, the bond is known as a coordinate covalent bond.
Is the effect of adding bonded atoms and lone pairs to the central atom similar? Explain why this could be the case.
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The bond angle and hybridisation of the central atom in the ether (CH3)20 a
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