The molecules having square pyramidal geometry are:
- A
&
- B
&
- C
&
- D
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The molecules having square pyramidal geometry are:
&
&
&
&
Correct answer:A
Standard Method
Given: We need to identify which given molecules have square pyramidal geometry.
Find: The correct option containing only molecules with square pyramidal shape.
Using VSEPR theory, square pyramidal geometry corresponds to species of type , that is, 5 bonding pairs and 1 lone pair on the central atom.
For :
There are 5 bond pairs and 1 lone pair on bromine, so its electron geometry is octahedral and its molecular geometry is square pyramidal.
For :
Xenon has one bond with oxygen, four bonds with fluorine, and one lone pair. Thus it also has 5 bonding regions and 1 lone pair, giving square pyramidal geometry.
For :
There are 5 bond pairs and no lone pair, so the geometry is trigonal bipyramidal, not square pyramidal.
For :
There are 5 bond pairs and no lone pair, so the geometry is again trigonal bipyramidal.
Therefore, the molecules having square pyramidal geometry are and .
The correct option is A.
Stepwise VSEPR Analysis
Given: The molecules listed are , , , and .
Find: Which of these show square pyramidal geometry.
Now examine each molecule:
For :
For :
For :
For :
So only and satisfy the condition.
Therefore, the correct option is A.
A common mistake is to count only the number of attached atoms and ignore the lone pair on the central atom. This is wrong because molecular geometry in VSEPR depends on both bonding pairs and lone pairs. Always determine the full steric number before assigning the shape.
Students often classify and as square pyramidal because they have five surrounding atoms. This is incorrect because both are species with no lone pair, so their geometry is trigonal bipyramidal, not square pyramidal.
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