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Chapter 9: Problem 15

How does a trigonal pyramid differ from a tetrahedron so far as molecular geometry is concerned?

Short Answer

Expert verified
The main differences between a trigonal pyramid and a tetrahedron in molecular geometry are the presence of a lone pair of electrons on the central atom in a trigonal pyramid, resulting in an asymmetrical shape with bond angles slightly less than 109.5 degrees, while a tetrahedral geometry is symmetrical with bond angles of approximately 109.5 degrees and no lone pairs on the central atom. Additionally, a trigonal pyramid has a central atom connected to three other atoms, whereas a tetrahedron has a central atom connected to four other atoms.

Step by step solution

01

Trigonal Pyramid Geometry

In a trigonal pyramid geometry, there is one central atom connected to three other atoms, and there is also a lone pair of electrons on the central atom. This geometric arrangement leads to an overall asymmetrical shape. The bond angles of a trigonal pyramid are slightly less than 109.5 degrees due to the presence of the lone pair-electron repulsion. This is an important feature found in the molecular geometry of trigonal pyramids.
02

Tetrahedron Geometry

In a tetrahedron (tetrahedral) geometry, there is one central atom connected to four other atoms. There are no lone pairs of electrons on the central atom in this case, and it has a symmetrical shape. The bond angles in a tetrahedron are approximately 109.5 degrees. A tetrahedral geometry is more symmetrical and provides equal distribution of electrons around the central atom.
03

Differences

The key differences between a trigonal pyramid and a tetrahedron in terms of molecular geometry are: 1. Presence of Lone Pair: Trigonal pyramid has one lone pair of electrons on the central atom, while a tetrahedron has no lone pairs on the central atom. 2. Bond Angles: The bond angles in a trigonal pyramid are slightly less than 109.5 degrees due to the presence of the lone pair-electron repulsion, whereas the bond angles in a tetrahedron are approximately 109.5 degrees. 3. Geometry: A trigonal pyramid has an asymmetrical shape, while a tetrahedron has a symmetrical shape. 4. Number of Atoms: Trigonal pyramid consists of a central atom connected to three other atoms, while a tetrahedron consists of a central atom connected to four other atoms.

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Most popular questions from this chapter

(a) The PH 3 molecule is polar. Does this offer experimental proof that the molecule cannot be planar? Explain. (b) It turns out that ozone, O3, has a small dipole moment. How is this possible, given that all the atoms are the same?

The highest occupied molecular orbital of a molecule is abbreviated as the HOMO. The lowest unoccupied molecular orbital in a molecule is called the LUMO. Experimentally, one can measure the difference in energy between the HOMO and LUMO by taking the electronic absorption (UV-visible) spectrum of the molecule. Peaks in the electronic absorption spectrum can be labeled as π2pπ2p ,σ25σ25, and so on, corresponding to electrons being promoted from one orbital to another. The HOMO-LUMO transition corresponds to molecules going from their ground state to their first excited state. (a) Write out the molecular orbital valence electron configurations for the ground state and first excited state for N2. (b) Is N2 paramagnetic or diamagnetic in its first excited state? (c) The electronic absorption spectrum of the N2 molecule has the lowest energy peak at 170 nm. To what orbital transition does this corre- spond? (a) Calculate the energy of the HOMO-LUMO transition in part (a) in terms of kJ/mol. (e) Is the N-N bondin the first excited state stronger or weaker compared to that in the ground state?

Describe the bond angles to be found in each of the following molecular structures: (a) trigonal planar, (b) tetrahedral, (c) octahedral, (d) linear.

(a) Which geometry and central atom hybridization would you expect in the series BH4,CH4,NH4+? (b) What would you expect for the magnitude and direction of the bond dipoles in this series? (c) Write the formulas for the analogous species of the elements of period 3; would you expect them to have the same hybridization at the central atom?

(a) An AB 2 molecule is linear. How many non bonding electron pairs are around the A atom from this information? (b) How many non bonding electrons surround the Xe in XeF2?(c) Is XeF 2 linear?
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