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The (oxy) borate ion is (BO3)3-.
trigonal planar
Each carbon atom has sp2 hybridization and are locked in the same plane due to the double bond located between them. The carbon atoms have 3 electron groups surrounding them with no lone pairs present thefore, It will have a trigonal planar geometry
Because there will be one electron left once Xe forms 3 bonds with F, and has 2 lone pair of electrons in the case of XeF3. in the case of XeF5, there will be 5 bond pairs, and 1 lone pair. still 1 electron will be left, which is not possible.
There are 3 unpaired electrons in an isolated nitrogen atom, the nitrogen molecule has none.
trigonal planar
16
3 bondings + 1 electron pair = 4 (electron domains)
PH3 has 3 bonding pairs and 1 non-bonding pair of electrons. Its electron pair geometry is Tetrahedral and its molecular geometry is Trigonal Pyramidal.
The molecular geometry of H3O+ is Trigonal Pyramidal because it has 3 bonding pairs and 1 nonbonding pair (lone pair)
borate ion
+3 oxidation state
The (oxy) borate ion is (BO3)3-.
The (oxy) borate ion is (BO3)3-.
true
NF3 has trigonal pyramidal shape. Around nitrogen, there are 1 lone pair electron and 3 bond pair electrons. The lone pair-bond pair electron repulsion is greater than bond pair-bond pair electron repulsion. The angle between N-F bond pairs are 107 degrees
trigonal planar