The planar species has to be determined. Concept Introduction: Valence shell electron pair repulsion theory (VSEPR) predicts the shape of the molecules with the use of the arrangement of electrons around the central metal atom. Its postulates are as follows: 1. The shape of the molecules is governed by the repulsion between electron pairs situated in the outermost or valence shell of the atoms. 2. A distortion is observed in the shape of the molecules if lone pairs are present in it. These are the electron pairs that do not participate in the chemical bonding between the atoms. The electron pairs that take part in bond formation are known as bond pairs. 3. The order of repulsion of electron pairs is as follows: lp − lp repulsion > lp − bp repulsion > bp − bp repulsion 4. Multiple bonds create more repulsion as compared to single bonds. 5. The following table shows the various molecular shapes that match the different number of electron pairs: Steric number or number of electron groups Number of lone pairs Molecular geometry 2 0 Linear 3 0 Trigonal planar 3 1 Bent 4 0 Tetrahedral 4 1 Trigonal pyramidal 4 2 Bent 5 0 Trigonal bipyramidal 5 1 See − saw 5 2 T − structure 5 3 Linear 6 0 Octahedral 6 1 Square pyramidal 6 2 Square planar The geometry of the molecule is predicted with the help of the steric number. The formula to calculate the steric number is as follows: Steric number = [ ( Atoms bonded to the central atom ) + ( Number of lone pairs on the central atom ) ] (1)

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Chapter MS, Problem 5PQ

Interpretation Introduction

Interpretation:

The planar species has to be determined.

Concept Introduction:

Valence shell electron pair repulsion theory (VSEPR) predicts the shape of the molecules with the use of the arrangement of electrons around the central metal atom. Its postulates are as follows:

1. The shape of the molecules is governed by the repulsion between electron pairs situated in the outermost or valence shell of the atoms.

2. A distortion is observed in the shape of the molecules if lone pairs are present in it. These are the electron pairs that do not participate in the chemical bonding between the atoms. The electron pairs that take part in bond formation are known as bond pairs.

3. The order of repulsion of electron pairs is as follows:

lp−lp repulsion>lp−bp repulsion >bp−bp repulsion

4. Multiple bonds create more repulsion as compared to single bonds.

5. The following table shows the various molecular shapes that match the different number of electron pairs:

Steric number ornumber ofelectron groupsNumber of lone pairsMolecular geometry20Linear30Trigonal planar31Bent40Tetrahedral41Trigonal pyramidal42Bent50Trigonal bipyramidal51See−saw52T−structure53Linear60Octahedral61Square pyramidal62Square planar

The geometry of the molecule is predicted with the help of the steric number. The formula to calculate the steric number is as follows:

Steric number=[(Atoms bonded to the central atom)+(Number of lone pairs on the central atom)] (1)

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