VSEPR Model for AsH3 and OF2: Understanding Molecular Geometry

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Discussion Overview

The discussion revolves around the molecular geometries of AsH3 and OF2 as predicted by the VSEPR model. Participants explore the implications of valence electrons and electron pair arrangements on molecular shape, addressing specific geometry claims and contrasting them with solutions from a manual.

Discussion Character

  • Homework-related
  • Debate/contested
  • Exploratory

Main Points Raised

  • One participant states that AsH3 has four sets of electron pairs, one of which is unshared, suggesting a tetrahedral structure with As-H angles of 107 degrees, but questions the manual's claim of a trigonal planar geometry.
  • Another participant proposes that the geometry of OF2 is influenced by formal charges, noting the negative charges on both O and F, contrasting it with H2O.
  • Some participants assert that the solution manual is incorrect regarding both AsH3 and OF2 geometries, suggesting that AsH3 is actually trigonal pyramidal due to the presence of a lone pair.
  • A later reply confirms that AsH3 is indeed trigonal pyramidal, likening it to ammonia, and discusses the spatial arrangement of the lone pair relative to the hydrogen atoms.
  • One participant expresses uncertainty about the geometry of AsH3 but leans towards it being trigonal pyramidal.

Areas of Agreement / Disagreement

There is no consensus on the geometry of AsH3 and OF2, with multiple competing views presented. Some participants agree that AsH3 is trigonal pyramidal, while others reference the manual's differing claims. The geometry of OF2 also remains contested.

Contextual Notes

Participants note the dependence of molecular geometry on electron pair arrangements and the potential influence of formal charges, but do not resolve the discrepancies with the solutions manual.

kasse
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Homework Statement



What is the geometry of AsH3 according to the VSEPR model?

The Attempt at a Solution



As has 5 valence electrons and H has one. The molecule therefore has four sets of electron pairs, whereof one is unshared. This gives a tetrahedral structure where the As-H angles are 107 degrees.

However, according to the solutions manual the geometry is triangular planar. Why?


I also have a problem with the geometry of OF2. Here, there are four sets of electron pairs, whereof two are unshared. I would expect the geometry of this molecule to be bent, but it's linear according to my book.
 
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For the OF2, I think it is due to the formal charges. O and F are both negative, where in the case of H2O the O is neg and the H is +. This is my first year of chem, so I may be wrong.
 
kasse said:
1. As has 5 valence electrons and H has one. The molecule therefore has four sets of electron pairs, whereof one is unshared. This gives a tetrahedral structure where the As-H angles are 107 degrees.

However, according to the solutions manual the geometry is triangular planar. Why?


I also have a problem with the geometry of OF2. Here, there are four sets of electron pairs, whereof two are unshared. I would expect the geometry of this molecule to be bent, but it's linear according to my book.



For AsH3 you are on the right track - keep thinking about the shape - but your solution manual is wrong

For OF2 you are correct and the manual is wrong again
 
eli64 said:
For AsH3 you are on the right track - keep thinking about the shape
Hm, I couldn't figure it out.
 
shape depends on atoms
 
kasse said:

Homework Statement



What is the geometry of AsH3 according to the VSEPR model?

The Attempt at a Solution



As has 5 valence electrons and H has one. The molecule therefore has four sets of electron pairs, whereof one is unshared. This gives a tetrahedral structure where the As-H angles are 107 degrees.

yes electrons are in the tetrahedral arrangement and dictate the arrangement of the outside atoms. so what shape has 4 pairs of electrons, 1 unshared and 3 outside atoms?
 
Sorry to be digging up old threads but is the answer Trigonal Pyramidal for AsH3 ?
 
I can't say with absolute certainty; but yes, I would conclude that AsH3 is trigonal pyramidal, like Ammonia. As it has three bonds to Hydrogen, and a lone pair.
 
  • #10
Yes AsH3 is pyramidal, as the lone pair wants as much space as it can get, and the largest angle it could have from the other atoms would be on top of the molecule. leaving the other hydrogen atoms in a trigonal pyramidal shape.

http://upload.wikimedia.org/wikipedia/commons/d/da/AX3E1-3D-balls.png
shows what it would look like, w/ the yellow atom being the lone pair.
 

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