The decreasing order of bond angles in $BF_{3} , NH_{3} , PF_{3}$ and $I_{3}{^{-}}$ is
- $I_3{^{-}} > NH_3 > PF_3 > BF_3$
- $I_3{^{-}} > BF_3 > NH_3 > PF_3$
- $BF_3 > I_3{^{-}} > PF_3 > NH_3$
- $BF_3 > NH_3 > PF_3 > I_3{^{-}}$
The Correct Option is B
Approach Solution - 1
$BF_3$ : Planar triangle with bond angles of $120^{\circ}$.
$NH _{3}$ : Trigonal pyramidal with bond angles of $107^{\circ} .$
$I _{3}^{-}$ : Linear with bond angles $180^{\circ}$.
$PF _{3}$ : Trigonal pyramidal with bond angles of $97.8^{\circ} .$
Approach Solution -2
The repulsion is in the order: lp-lp > lp-bp > bp-bp.
In PF3, there is a lp-lp repulsion, the angle of PF3 will be less than BF3.
The geometry of BF3 is trigonal planar while NH3 is tetrahedral
The sequence will therefore be, BF3> NH3>PF3
I3- is a linear molecule therefore, the angle is 180 degree.
The overall order will be I3- > BF3> NH3>PF3
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Concepts Used:
Bond Parameters
Covalent bonds can be characterized on the basis of several bond parameters such as bond length, bond angle, bond order, and bond energy (also known as bond enthalpy). These bond parameters offer insight into the stability of a chemical compound and the strength of the chemical bonds holding its atoms together.
Bond parameters
- Bond length: it is an equilibrium distance between the centres of the nuclei of the two bonded atoms. It is expressed in terms of A.
- Bond Angle: It is characterized as the point between the orbitals consisting of holding electron sets around the focal iota in an atom/complex particle. Bond points are communicated in degrees which are tentatively controlled by spectroscopic strategies.
- Bond Enthalpy: the measure of energy needed to break one mole of obligations of a specific sort between two molecules in a vaporous state. The unit of bond enthalpy is kJ mol–1. The more the bond enthalpy, the more grounded the bond is.
For example, The H—H bond enthalpy in hydrogen is 435.8 kJ mol-1. \
- Bond Order: According to Lewis, Bond Order is given by the number of connections between the two atoms in a particle.
Bond order of H2 (H —H) =1
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Read More: Chemical Bonding and Molecular Structure