PCl5 Molecular Shape

Q.15 The shape of PCl5 is Options: (A) tetrahedral (B) square planar (C) trigonal bipyramidal (D) square pyramidal

Q.15

The shape of PCl5 is

Options:

(A) tetrahedral

(B) square planar

(C) trigonal bipyramidal

(D) square pyramidal

PCl5 (phosphorus pentachloride) molecular geometry questions test VSEPR theory and hybridization concepts fundamental to inorganic chemistry and materials science. With 5 chlorine atoms bonded to central phosphorus and no lone pairs, PCl5 adopts a distinctive 3D structure.

The correct answer is (C) trigonal bipyramidal, featuring sp³d hybridization, 3 equatorial Cl at 120° and 2 axial Cl at 90° to the plane.

Why (C) Trigonal Bipyramidal is Correct

Phosphorus (5 valence e⁻) forms 5 P-Cl bonds using sp³d hybridization (one s, three p, one d orbital). Steric number 5 (5 bonds, 0 lone pairs) dictates trigonal bipyramidal geometry per VSEPR theory—three equatorial positions (120° bond angles) and two axial positions (90° to equatorial).

Explanation of All Options

Each geometry corresponds to different electron pair arrangements:

  • (A) Tetrahedral
    Wrong. Tetrahedral (sp³, steric #4) fits CH₄ or PCl₃ (3 bonds + 1 lone pair). PCl5 has 5 bonds, requiring extra orbital space.

  • (B) Square planar
    Incorrect. dsp² hybridization (steric #4 + 2 lone pairs), like XeF₄ or PtCl₄²⁻. PCl5 lacks square symmetry and d orbital pairing.

  • (C) Trigonal bipyramidal
    Correct. sp³d hybridization accommodates 5 bonds perfectly: 3 equatorial (120°), 2 axial (90°). Bond lengths differ (axial longer).

  • (D) Square pyramidal
    No. Would require octahedral electron geometry (6 pairs) with 1 lone pair, like BrF₅. PCl5 has only 5 bonding pairs.

Quick Geometry Comparison Table

Option Geometry Steric # Hybridization Example Molecules Fits PCl5?
A Tetrahedral 4 sp³ CH₄, SiF₄ No
B Square planar 6 (4+2) dsp² XeF₄, PtCl₄²⁻ No
C Trigonal bipyramidal 5 sp³d PCl₅, SbCl₅ Yes
D Square pyramidal 6 (5+1) sp³d² BrF₅, IF₅ No

Biotech connection: PCl5 used in phosphorylation reactions for oligonucleotide synthesis. Visualize: axial bonds weaker, more reactive than equatorial in trigonal bipyramidal structure.

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