Concept explainers
(a)
Interpretation:
With the help of VSEPR theory, the geometry of given molecules has to be predicted.
Concept Introduction:
Steps to predict the geometry by VSEPR model:
- 1) The electron dot formula is written from the molecular formula.
- 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
- 3) The arrangement of these electron pairs about the central atom is determined.
- 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.
To give the geometry of
(b)
Interpretation:
With the help of VSEPR theory, the geometry of given molecules has to be predicted.
Concept Introduction:
Valence bond theory: VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.
Steps to predict the geometry by VSEPR model:
- 1) The electron dot formula is written from the molecular formula.
- 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
- 3) The arrangement of these electron pairs about the central atom is determined.
- 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.
To give the geometry of
(c)
Interpretation:
With the help of VSEPR theory, the geometry of given molecules has to be predicted.
Concept Introduction:
Valence bond theory: VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.
Steps to predict the geometry by VSEPR model:
- 1) The electron dot formula is written from the molecular formula.
- 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
- 3) The arrangement of these electron pairs about the central atom is determined.
- 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.
To give the geometry of
(d)
Interpretation:
With the help of VSEPR theory, the geometry of given molecules has to be predicted.
Concept Introduction:
Valence bond theory: VSEPR theory tells about the shapes of molecules and ions by taking the consideration that the outermost electron pairs are arranged about each atom so that the pairs of electrons are kept at a distance from one molecule to other, thereby minimizing the repulsion of electron-pair.
Steps to predict the geometry by VSEPR model:
- 1) The electron dot formula is written from the molecular formula.
- 2) The number of electron pairs including the bonding and non-bonding pairs around the central atom is determined from the electron dot formula.
- 3) The arrangement of these electron pairs about the central atom is determined.
- 4) The molecular geometry is determined from the directions of the bonding pairs or the arrangement.
To give the geometry of
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General Chemistry - Standalone book (MindTap Course List)
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- In each of the following polyatomic ions, the central atom has an expanded octet. Determine the number of electron pairs around the central atom and the hybridization in (a) SF22- (b) AsCl6- (c) SCl42-arrow_forwardSuccessive substitution of F atoms for H atoms in the molecule NH3 produces the molecules NH2F, NHF2, and NF3. a. Draw Lewis structures for each of the four molecules. b. Using VSEPR theory, predict the geometry of each of the four molecules. c. Specify the polarity (polar or nonpolar) for each of the four molecules.arrow_forwardWhich of the following is nonpolar? O NO2 SO3 PH3 HCN CHCI3arrow_forward
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