Match the List-I with List-II.List-I List-IIA. XeO3 I. sp3d; linearB. XeF2 II. sp3; pyramidalC. XeOF4 III. sp3d3: distortedoctahedralD. XeF6 IV. sp3d2; squarepyramidalChoose the correct answer from the options givenbelow.

by
with no comment
Chemistry

Answer

Xenon Compounds Geometry and Hybridization

Xenon Compounds: Geometry and Hybridization

1. Xenon Trioxide (XeO₃)

Hybridization: sp³

Geometry: Pyramidal

Explanation: Xenon forms three bonds with oxygen atoms and retains one lone pair, resulting in a pyramidal geometry due to electron pair repulsion.

2. Xenon Difluoride (XeF₂)

Hybridization: sp³d

Geometry: Linear

Explanation: With five electron pairs (2 bonding, 3 lone), the linear shape results from lone pairs occupying equatorial positions in a trigonal bipyramidal structure.

3. Xenon Oxyfluoride (XeOF₄)

Hybridization: sp³d²

Geometry: Square pyramidal

Explanation: XeOF₄ contains six electron regions (5 bonding, 1 lone pair). The lone pair causes a distortion from perfect octahedral to square pyramidal geometry.

4. Xenon Hexafluoride (XeF₆)

Hybridization: sp³d³

Geometry: Distorted octahedral

Explanation: XeF₆ has seven electron pairs (6 bonding, 1 lone), where the lone pair distorts the ideal octahedral structure.

Add a Comment

Your email address will not be published. Required fields are marked *